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base: uelen/SDVD:add_more_docs
Branches Tags
uelen/SDVD:master uelen/SDVD:comment_clean_up uelen/SDVD:header_changes uelen/SDVD:add_more_docs uelen/SDVD:debouncer_fixup uelen/SDVD:wcude
...
compare: uelen/SDVD:9af830daa0ccd6649587057669ba8e8025c40d87
Branches Tags
uelen/SDVD:master uelen/SDVD:comment_clean_up uelen/SDVD:header_changes uelen/SDVD:add_more_docs uelen/SDVD:debouncer_fixup uelen/SDVD:wcude

18 Commits
add_more_docs ... 9af830daa0

Author SHA1 Message Date
Dilanthi 9af830daa0 comment clean up 2025-06-10 02:51:18 -07:00
Dilanthi 53b48c0bce comment clean up for segment_display folder 2025-06-10 01:38:52 -07:00
Dilanthi a07e811a16 code clean up for playback_controller.sv 2025-06-10 01:30:51 -07:00
uelen fe227d1b61 Broken SD card
ci/woodpecker/push/test-workflow Pipeline was successful
Details 
How tf did it break bro
 2025-06-09 15:41:13 -07:00
uelen 71eecd18e8 Added modules to read sdcard data and cmd response
ci/woodpecker/push/test-workflow Pipeline was successful
Details 
These were realy headaches but the testbenches are passing. We need to
take a look at the audio_buffer testbench for sure, it is way wrong and
needs reworked to use the interface. Should do a pass through every
module probably.
 2025-06-07 21:57:17 -07:00
uelen e32563131f Added command signal driver module
ci/woodpecker/push/test-workflow Pipeline was successful
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2025-06-06 20:49:18 -07:00
uelen 71f08bdf15 Add CRC generation for sd card
ci/woodpecker/push/test-workflow Pipeline was successful
Details 
Works great according to the testbench
 2025-06-06 18:13:14 -07:00
uelen 35cb264b26 Its working! Demo commit
ci/woodpecker/push/test-workflow Pipeline was successful
Details 
We have something at least, audio is working and sounding dang good
 2025-06-06 01:06:20 -07:00
uelen 7980424dc8 Lots of changes, trying to get ROM working
ci/woodpecker/push/test-workflow Pipeline was successful
Details 
I think I did some funny math errors so new goal is 8-bit pcm
 2025-06-05 18:48:53 -07:00
Dilanthi 02e2d77640 header for rom_sd.sv
ci/woodpecker/push/test-workflow Pipeline was successful
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2025-06-04 14:34:49 -07:00
Dilanthi 1beb6cbf5c Implement rom_sd state machine
ci/woodpecker/push/test-workflow Pipeline was successful
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2025-06-04 13:17:36 -07:00
uelen 89558d8313 More fixup on rom_sd
ci/woodpecker/push/test-workflow Pipeline was successful
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2025-06-03 22:36:57 -07:00
uelen 2387fdbe3b Fixup on rom_sd flowchart
ci/woodpecker/push/test-workflow Pipeline was successful
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2025-06-03 22:36:01 -07:00
uelen 0015a0d7bc Merge pull request 'added headers/ updated old ones' (#3) from header_changes into master
ci/woodpecker/push/test-workflow Pipeline was successful
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Reviewed-on: #3
 2025-06-03 00:51:19 +00:00
uelen b9b6be7cbe Typo fixup 2025-06-02 17:47:35 -07:00
Dilanthi 636b375c48 added headers/ updated old ones 2025-06-02 17:36:27 -07:00
Dilanthi d4d9d604b9 Merge pull request 'Initial work on rom_sd' (#2) from add_more_docs into master
ci/woodpecker/push/test-workflow Pipeline was successful
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Reviewed-on: #2
 2025-06-02 21:24:45 +00:00
Dilanthi aa8ffb8213 Merge pull request 'Fixed up debouncer and added some assertions' (#1) from debouncer_fixup into master
ci/woodpecker/push/test-workflow Pipeline was successful
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Reviewed-on: #1
 2025-06-02 21:23:34 +00:00
47 changed files with 773630 additions and 204 deletions
Expand all files Collapse all files
.gitignore
+2
View File
@@ -2,4 +2,6 @@
*.log
xsim.dir
SDVD.*
.Xil/
vivado_pid*
!SDVD.xpr
Nexys-A7-100T-Master.xdc
+93 -33
View File
@@ -31,7 +31,7 @@ set_property CONFIG_VOLTAGE 3.3 [current_design]
#set_property -dict { PACKAGE_PIN V10 IOSTANDARD LVCMOS33 } [get_ports { SW[15] }]; #IO_L21P_T3_DQS_14 Sch=sw[15]
## LEDs
#set_property -dict { PACKAGE_PIN H17 IOSTANDARD LVCMOS33 } [get_ports { LED[0] }]; #IO_L18P_T2_A24_15 Sch=led[0]
set_property -dict {PACKAGE_PIN H17 IOSTANDARD LVCMOS33} [get_ports {LED[0]}]
#set_property -dict { PACKAGE_PIN K15 IOSTANDARD LVCMOS33 } [get_ports { LED[1] }]; #IO_L24P_T3_RS1_15 Sch=led[1]
#set_property -dict { PACKAGE_PIN J13 IOSTANDARD LVCMOS33 } [get_ports { LED[2] }]; #IO_L17N_T2_A25_15 Sch=led[2]
#set_property -dict { PACKAGE_PIN N14 IOSTANDARD LVCMOS33 } [get_ports { LED[3] }]; #IO_L8P_T1_D11_14 Sch=led[3]
@@ -153,14 +153,14 @@ set_property -dict {PACKAGE_PIN M17 IOSTANDARD LVCMOS33} [get_ports BTNR]
#set_property -dict { PACKAGE_PIN B12 IOSTANDARD LVCMOS33 } [get_ports { VGA_VS }]; #IO_L3N_T0_DQS_AD1N_15 Sch=vga_vs
##Micro SD Connector
#set_property -dict { PACKAGE_PIN E2 IOSTANDARD LVCMOS33 } [get_ports { SD_RESET }]; #IO_L14P_T2_SRCC_35 Sch=sd_reset
#set_property -dict { PACKAGE_PIN A1 IOSTANDARD LVCMOS33 } [get_ports { SD_CD }]; #IO_L9N_T1_DQS_AD7N_35 Sch=sd_cd
#set_property -dict { PACKAGE_PIN B1 IOSTANDARD LVCMOS33 } [get_ports { SD_SCK }]; #IO_L9P_T1_DQS_AD7P_35 Sch=sd_sck
#set_property -dict { PACKAGE_PIN C1 IOSTANDARD LVCMOS33 } [get_ports { SD_CMD }]; #IO_L16N_T2_35 Sch=sd_cmd
#set_property -dict { PACKAGE_PIN C2 IOSTANDARD LVCMOS33 } [get_ports { SD_DAT[0] }]; #IO_L16P_T2_35 Sch=sd_dat[0]
#set_property -dict { PACKAGE_PIN E1 IOSTANDARD LVCMOS33 } [get_ports { SD_DAT[1] }]; #IO_L18N_T2_35 Sch=sd_dat[1]
#set_property -dict { PACKAGE_PIN F1 IOSTANDARD LVCMOS33 } [get_ports { SD_DAT[2] }]; #IO_L18P_T2_35 Sch=sd_dat[2]
#set_property -dict { PACKAGE_PIN D2 IOSTANDARD LVCMOS33 } [get_ports { SD_DAT[3] }]; #IO_L14N_T2_SRCC_35 Sch=sd_dat[3]
set_property -dict {PACKAGE_PIN E2 IOSTANDARD LVCMOS33} [get_ports SD_RESET]
set_property -dict {PACKAGE_PIN A1 IOSTANDARD LVCMOS33} [get_ports SD_CD]
set_property -dict {PACKAGE_PIN B1 IOSTANDARD LVCMOS33} [get_ports SD_SCK]
set_property -dict {PACKAGE_PIN C1 IOSTANDARD LVCMOS33} [get_ports SD_CMD]
set_property -dict {PACKAGE_PIN C2 IOSTANDARD LVCMOS33} [get_ports {SD_DAT[0]}]
set_property -dict {PACKAGE_PIN E1 IOSTANDARD LVCMOS33} [get_ports {SD_DAT[1]}]
set_property -dict {PACKAGE_PIN F1 IOSTANDARD LVCMOS33} [get_ports {SD_DAT[2]}]
set_property -dict {PACKAGE_PIN D2 IOSTANDARD LVCMOS33} [get_ports {SD_DAT[3]}]
##Accelerometer
#set_property -dict { PACKAGE_PIN E15 IOSTANDARD LVCMOS33 } [get_ports { ACL_MISO }]; #IO_L11P_T1_SRCC_15 Sch=acl_miso
@@ -182,8 +182,8 @@ set_property -dict {PACKAGE_PIN M17 IOSTANDARD LVCMOS33} [get_ports BTNR]
#set_property -dict { PACKAGE_PIN F5 IOSTANDARD LVCMOS33 } [get_ports { M_LRSEL }]; #IO_0_35 Sch=m_lrsel
##PWM Audio Amplifier
#set_property -dict { PACKAGE_PIN A11 IOSTANDARD LVCMOS33 } [get_ports { AUD_PWM }]; #IO_L4N_T0_15 Sch=aud_pwm
#set_property -dict { PACKAGE_PIN D12 IOSTANDARD LVCMOS33 } [get_ports { AUD_SD }]; #IO_L6P_T0_15 Sch=aud_sd
set_property -dict {PACKAGE_PIN A11 IOSTANDARD LVCMOS33} [get_ports AUD_PWM]
set_property -dict {PACKAGE_PIN D12 IOSTANDARD LVCMOS33} [get_ports AUD_SD]
##USB-RS232 Interface
#set_property -dict { PACKAGE_PIN C4 IOSTANDARD LVCMOS33 } [get_ports { UART_TXD_IN }]; #IO_L7P_T1_AD6P_35 Sch=uart_txd_in
@@ -216,12 +216,36 @@ set_property -dict {PACKAGE_PIN M17 IOSTANDARD LVCMOS33} [get_ports BTNR]
#set_property -dict { PACKAGE_PIN M14 IOSTANDARD LVCMOS33 } [get_ports { QSPI_DQ[3] }]; #IO_L2N_T0_D03_14 Sch=qspi_dq[3]
#set_property -dict { PACKAGE_PIN L13 IOSTANDARD LVCMOS33 } [get_ports { QSPI_CSN }]; #IO_L6P_T0_FCS_B_14 Sch=qspi_csn
connect_debug_port u_ila_0/probe2 [get_nets [list {realSdPlayer/address[0]} {realSdPlayer/address[1]} {realSdPlayer/address[2]} {realSdPlayer/address[3]} {realSdPlayer/address[4]} {realSdPlayer/address[5]} {realSdPlayer/address[6]} {realSdPlayer/address[7]} {realSdPlayer/address[8]} {realSdPlayer/address[9]} {realSdPlayer/address[10]} {realSdPlayer/address[11]} {realSdPlayer/address[12]} {realSdPlayer/address[13]} {realSdPlayer/address[14]} {realSdPlayer/address[15]} {realSdPlayer/address[16]} {realSdPlayer/address[17]} {realSdPlayer/address[18]} {realSdPlayer/address[19]} {realSdPlayer/address[20]} {realSdPlayer/address[21]} {realSdPlayer/address[22]} {realSdPlayer/address[23]} {realSdPlayer/address[24]} {realSdPlayer/address[25]} {realSdPlayer/address[26]} {realSdPlayer/address[27]} {realSdPlayer/address[28]} {realSdPlayer/address[29]} {realSdPlayer/address[30]} {realSdPlayer/address[31]}]]
set_property MARK_DEBUG true [get_nets reset]
connect_debug_port u_ila_0/probe4 [get_nets [list {realSdPlayer/reader/next_state[0]} {realSdPlayer/reader/next_state[1]} {realSdPlayer/reader/next_state[2]}]]
connect_debug_port u_ila_0/probe7 [get_nets [list {realSdPlayer/reader/state[0]} {realSdPlayer/reader/state[1]} {realSdPlayer/reader/state[2]}]]
connect_debug_port u_ila_0/probe6 [get_nets [list {realSdPlayer/sender/to_send[0]} {realSdPlayer/sender/to_send[1]} {realSdPlayer/sender/to_send[2]} {realSdPlayer/sender/to_send[3]} {realSdPlayer/sender/to_send[4]} {realSdPlayer/sender/to_send[5]} {realSdPlayer/sender/to_send[6]} {realSdPlayer/sender/to_send[7]} {realSdPlayer/sender/to_send[8]} {realSdPlayer/sender/to_send[9]} {realSdPlayer/sender/to_send[10]} {realSdPlayer/sender/to_send[11]} {realSdPlayer/sender/to_send[12]} {realSdPlayer/sender/to_send[13]} {realSdPlayer/sender/to_send[14]} {realSdPlayer/sender/to_send[15]} {realSdPlayer/sender/to_send[16]} {realSdPlayer/sender/to_send[17]} {realSdPlayer/sender/to_send[18]} {realSdPlayer/sender/to_send[19]} {realSdPlayer/sender/to_send[20]} {realSdPlayer/sender/to_send[21]} {realSdPlayer/sender/to_send[22]} {realSdPlayer/sender/to_send[23]} {realSdPlayer/sender/to_send[24]} {realSdPlayer/sender/to_send[25]} {realSdPlayer/sender/to_send[26]} {realSdPlayer/sender/to_send[27]} {realSdPlayer/sender/to_send[28]} {realSdPlayer/sender/to_send[29]} {realSdPlayer/sender/to_send[30]} {realSdPlayer/sender/to_send[31]} {realSdPlayer/sender/to_send[32]} {realSdPlayer/sender/to_send[33]} {realSdPlayer/sender/to_send[34]} {realSdPlayer/sender/to_send[35]} {realSdPlayer/sender/to_send[36]} {realSdPlayer/sender/to_send[37]} {realSdPlayer/sender/to_send[38]} {realSdPlayer/sender/to_send[39]} {realSdPlayer/sender/to_send[40]} {realSdPlayer/sender/to_send[41]} {realSdPlayer/sender/to_send[42]} {realSdPlayer/sender/to_send[43]} {realSdPlayer/sender/to_send[44]} {realSdPlayer/sender/to_send[45]} {realSdPlayer/sender/to_send[46]} {realSdPlayer/sender/to_send[47]}]]
set_property MARK_DEBUG true [get_nets realSdPlayer/fast_clk]
connect_debug_port u_ila_0/probe8 [get_nets [list {realSdPlayer/fastSender/to_send[0]} {realSdPlayer/fastSender/to_send[1]} {realSdPlayer/fastSender/to_send[2]} {realSdPlayer/fastSender/to_send[3]} {realSdPlayer/fastSender/to_send[4]} {realSdPlayer/fastSender/to_send[5]} {realSdPlayer/fastSender/to_send[6]} {realSdPlayer/fastSender/to_send[7]} {realSdPlayer/fastSender/to_send[8]} {realSdPlayer/fastSender/to_send[9]} {realSdPlayer/fastSender/to_send[10]} {realSdPlayer/fastSender/to_send[11]} {realSdPlayer/fastSender/to_send[12]} {realSdPlayer/fastSender/to_send[13]} {realSdPlayer/fastSender/to_send[14]} {realSdPlayer/fastSender/to_send[15]} {realSdPlayer/fastSender/to_send[16]} {realSdPlayer/fastSender/to_send[17]} {realSdPlayer/fastSender/to_send[18]} {realSdPlayer/fastSender/to_send[19]} {realSdPlayer/fastSender/to_send[20]} {realSdPlayer/fastSender/to_send[21]} {realSdPlayer/fastSender/to_send[22]} {realSdPlayer/fastSender/to_send[23]} {realSdPlayer/fastSender/to_send[24]} {realSdPlayer/fastSender/to_send[25]} {realSdPlayer/fastSender/to_send[26]} {realSdPlayer/fastSender/to_send[27]} {realSdPlayer/fastSender/to_send[28]} {realSdPlayer/fastSender/to_send[29]} {realSdPlayer/fastSender/to_send[30]} {realSdPlayer/fastSender/to_send[31]} {realSdPlayer/fastSender/to_send[32]} {realSdPlayer/fastSender/to_send[33]} {realSdPlayer/fastSender/to_send[34]} {realSdPlayer/fastSender/to_send[35]} {realSdPlayer/fastSender/to_send[36]} {realSdPlayer/fastSender/to_send[37]} {realSdPlayer/fastSender/to_send[38]} {realSdPlayer/fastSender/to_send[39]} {realSdPlayer/fastSender/to_send[40]} {realSdPlayer/fastSender/to_send[41]} {realSdPlayer/fastSender/to_send[42]} {realSdPlayer/fastSender/to_send[43]} {realSdPlayer/fastSender/to_send[44]} {realSdPlayer/fastSender/to_send[45]} {realSdPlayer/fastSender/to_send[46]} {realSdPlayer/fastSender/to_send[47]}]]
connect_debug_port u_ila_0/probe19 [get_nets [list realSdPlayer/send_command_ready_fast]]
connect_debug_port u_ila_0/probe21 [get_nets [list realSdPlayer/send_command_start_fast]]
set_property MARK_DEBUG true [get_nets realSdPlayer/sd_cmd_OBUF]
create_debug_core u_ila_0 ila
set_property ALL_PROBE_SAME_MU true [get_debug_cores u_ila_0]
set_property ALL_PROBE_SAME_MU_CNT 1 [get_debug_cores u_ila_0]
set_property ALL_PROBE_SAME_MU_CNT 2 [get_debug_cores u_ila_0]
set_property C_ADV_TRIGGER false [get_debug_cores u_ila_0]
set_property C_DATA_DEPTH 1024 [get_debug_cores u_ila_0]
set_property C_EN_STRG_QUAL false [get_debug_cores u_ila_0]
set_property C_DATA_DEPTH 16384 [get_debug_cores u_ila_0]
set_property C_EN_STRG_QUAL true [get_debug_cores u_ila_0]
set_property C_INPUT_PIPE_STAGES 0 [get_debug_cores u_ila_0]
set_property C_TRIGIN_EN false [get_debug_cores u_ila_0]
set_property C_TRIGOUT_EN false [get_debug_cores u_ila_0]
@@ -229,55 +253,91 @@ set_property port_width 1 [get_debug_ports u_ila_0/clk]
connect_debug_port u_ila_0/clk [get_nets [list CLK100MHZ_IBUF_BUFG]]
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe0]
set_property port_width 6 [get_debug_ports u_ila_0/probe0]
connect_debug_port u_ila_0/probe0 [get_nets [list {seconds_reg[0]} {seconds_reg[1]} {seconds_reg[2]} {seconds_reg[3]} {seconds_reg[4]} {seconds_reg[5]}]]
connect_debug_port u_ila_0/probe0 [get_nets [list {realSdPlayer/next_state[0]} {realSdPlayer/next_state[1]} {realSdPlayer/next_state[2]} {realSdPlayer/next_state[3]} {realSdPlayer/next_state[4]} {realSdPlayer/next_state[5]}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe1]
set_property port_width 6 [get_debug_ports u_ila_0/probe1]
connect_debug_port u_ila_0/probe1 [get_nets [list {minutes[0]} {minutes[1]} {minutes[2]} {minutes[3]} {minutes[4]} {minutes[5]}]]
connect_debug_port u_ila_0/probe1 [get_nets [list {realSdPlayer/state[0]} {realSdPlayer/state[1]} {realSdPlayer/state[2]} {realSdPlayer/state[3]} {realSdPlayer/state[4]} {realSdPlayer/state[5]}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe2]
set_property port_width 3 [get_debug_ports u_ila_0/probe2]
connect_debug_port u_ila_0/probe2 [get_nets [list {playbackController/current[0]} {playbackController/current[1]} {playbackController/current[2]}]]
set_property port_width 11 [get_debug_ports u_ila_0/probe2]
connect_debug_port u_ila_0/probe2 [get_nets [list {realSdPlayer/dataHandler/buffer\\.addra[0]} {realSdPlayer/dataHandler/buffer\\.addra[1]} {realSdPlayer/dataHandler/buffer\\.addra[2]} {realSdPlayer/dataHandler/buffer\\.addra[3]} {realSdPlayer/dataHandler/buffer\\.addra[4]} {realSdPlayer/dataHandler/buffer\\.addra[5]} {realSdPlayer/dataHandler/buffer\\.addra[6]} {realSdPlayer/dataHandler/buffer\\.addra[7]} {realSdPlayer/dataHandler/buffer\\.addra[8]} {realSdPlayer/dataHandler/buffer\\.addra[9]} {realSdPlayer/dataHandler/buffer\\.addra[10]}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe3]
set_property port_width 6 [get_debug_ports u_ila_0/probe3]
connect_debug_port u_ila_0/probe3 [get_nets [list {hours_reg[0]} {hours_reg[1]} {hours_reg[2]} {hours_reg[3]} {hours_reg[4]} {hours_reg[5]}]]
set_property port_width 32 [get_debug_ports u_ila_0/probe3]
connect_debug_port u_ila_0/probe3 [get_nets [list {realSdPlayer/arg[0]} {realSdPlayer/arg[1]} {realSdPlayer/arg[2]} {realSdPlayer/arg[3]} {realSdPlayer/arg[4]} {realSdPlayer/arg[5]} {realSdPlayer/arg[6]} {realSdPlayer/arg[7]} {realSdPlayer/arg[8]} {realSdPlayer/arg[9]} {realSdPlayer/arg[10]} {realSdPlayer/arg[11]} {realSdPlayer/arg[12]} {realSdPlayer/arg[13]} {realSdPlayer/arg[14]} {realSdPlayer/arg[15]} {realSdPlayer/arg[16]} {realSdPlayer/arg[17]} {realSdPlayer/arg[18]} {realSdPlayer/arg[19]} {realSdPlayer/arg[20]} {realSdPlayer/arg[21]} {realSdPlayer/arg[22]} {realSdPlayer/arg[23]} {realSdPlayer/arg[24]} {realSdPlayer/arg[25]} {realSdPlayer/arg[26]} {realSdPlayer/arg[27]} {realSdPlayer/arg[28]} {realSdPlayer/arg[29]} {realSdPlayer/arg[30]} {realSdPlayer/arg[31]}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe4]
set_property port_width 3 [get_debug_ports u_ila_0/probe4]
connect_debug_port u_ila_0/probe4 [get_nets [list {anodeDriver/mux_select[0]} {anodeDriver/mux_select[1]} {anodeDriver/mux_select[2]}]]
set_property port_width 48 [get_debug_ports u_ila_0/probe4]
connect_debug_port u_ila_0/probe4 [get_nets [list {realSdPlayer/received_data[0]} {realSdPlayer/received_data[1]} {realSdPlayer/received_data[2]} {realSdPlayer/received_data[3]} {realSdPlayer/received_data[4]} {realSdPlayer/received_data[5]} {realSdPlayer/received_data[6]} {realSdPlayer/received_data[7]} {realSdPlayer/received_data[8]} {realSdPlayer/received_data[9]} {realSdPlayer/received_data[10]} {realSdPlayer/received_data[11]} {realSdPlayer/received_data[12]} {realSdPlayer/received_data[13]} {realSdPlayer/received_data[14]} {realSdPlayer/received_data[15]} {realSdPlayer/received_data[16]} {realSdPlayer/received_data[17]} {realSdPlayer/received_data[18]} {realSdPlayer/received_data[19]} {realSdPlayer/received_data[20]} {realSdPlayer/received_data[21]} {realSdPlayer/received_data[22]} {realSdPlayer/received_data[23]} {realSdPlayer/received_data[24]} {realSdPlayer/received_data[25]} {realSdPlayer/received_data[26]} {realSdPlayer/received_data[27]} {realSdPlayer/received_data[28]} {realSdPlayer/received_data[29]} {realSdPlayer/received_data[30]} {realSdPlayer/received_data[31]} {realSdPlayer/received_data[32]} {realSdPlayer/received_data[33]} {realSdPlayer/received_data[34]} {realSdPlayer/received_data[35]} {realSdPlayer/received_data[36]} {realSdPlayer/received_data[37]} {realSdPlayer/received_data[38]} {realSdPlayer/received_data[39]} {realSdPlayer/received_data[40]} {realSdPlayer/received_data[41]} {realSdPlayer/received_data[42]} {realSdPlayer/received_data[43]} {realSdPlayer/received_data[44]} {realSdPlayer/received_data[45]} {realSdPlayer/received_data[46]} {realSdPlayer/received_data[47]}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe5]
set_property port_width 8 [get_debug_ports u_ila_0/probe5]
connect_debug_port u_ila_0/probe5 [get_nets [list {AN_OBUF[0]} {AN_OBUF[1]} {AN_OBUF[2]} {AN_OBUF[3]} {AN_OBUF[4]} {AN_OBUF[5]} {AN_OBUF[6]} {AN_OBUF[7]}]]
set_property port_width 48 [get_debug_ports u_ila_0/probe5]
connect_debug_port u_ila_0/probe5 [get_nets [list {realSdPlayer/slowSender/to_send[0]} {realSdPlayer/slowSender/to_send[1]} {realSdPlayer/slowSender/to_send[2]} {realSdPlayer/slowSender/to_send[3]} {realSdPlayer/slowSender/to_send[4]} {realSdPlayer/slowSender/to_send[5]} {realSdPlayer/slowSender/to_send[6]} {realSdPlayer/slowSender/to_send[7]} {realSdPlayer/slowSender/to_send[8]} {realSdPlayer/slowSender/to_send[9]} {realSdPlayer/slowSender/to_send[10]} {realSdPlayer/slowSender/to_send[11]} {realSdPlayer/slowSender/to_send[12]} {realSdPlayer/slowSender/to_send[13]} {realSdPlayer/slowSender/to_send[14]} {realSdPlayer/slowSender/to_send[15]} {realSdPlayer/slowSender/to_send[16]} {realSdPlayer/slowSender/to_send[17]} {realSdPlayer/slowSender/to_send[18]} {realSdPlayer/slowSender/to_send[19]} {realSdPlayer/slowSender/to_send[20]} {realSdPlayer/slowSender/to_send[21]} {realSdPlayer/slowSender/to_send[22]} {realSdPlayer/slowSender/to_send[23]} {realSdPlayer/slowSender/to_send[24]} {realSdPlayer/slowSender/to_send[25]} {realSdPlayer/slowSender/to_send[26]} {realSdPlayer/slowSender/to_send[27]} {realSdPlayer/slowSender/to_send[28]} {realSdPlayer/slowSender/to_send[29]} {realSdPlayer/slowSender/to_send[30]} {realSdPlayer/slowSender/to_send[31]} {realSdPlayer/slowSender/to_send[32]} {realSdPlayer/slowSender/to_send[33]} {realSdPlayer/slowSender/to_send[34]} {realSdPlayer/slowSender/to_send[35]} {realSdPlayer/slowSender/to_send[36]} {realSdPlayer/slowSender/to_send[37]} {realSdPlayer/slowSender/to_send[38]} {realSdPlayer/slowSender/to_send[39]} {realSdPlayer/slowSender/to_send[40]} {realSdPlayer/slowSender/to_send[41]} {realSdPlayer/slowSender/to_send[42]} {realSdPlayer/slowSender/to_send[43]} {realSdPlayer/slowSender/to_send[44]} {realSdPlayer/slowSender/to_send[45]} {realSdPlayer/slowSender/to_send[46]} {realSdPlayer/slowSender/to_send[47]}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe6]
set_property port_width 1 [get_debug_ports u_ila_0/probe6]
connect_debug_port u_ila_0/probe6 [get_nets [list CA_OBUF]]
set_property port_width 8 [get_debug_ports u_ila_0/probe6]
connect_debug_port u_ila_0/probe6 [get_nets [list {realSdPlayer/dataHandler/buffer\\.dina[0]} {realSdPlayer/dataHandler/buffer\\.dina[1]} {realSdPlayer/dataHandler/buffer\\.dina[2]} {realSdPlayer/dataHandler/buffer\\.dina[3]} {realSdPlayer/dataHandler/buffer\\.dina[4]} {realSdPlayer/dataHandler/buffer\\.dina[5]} {realSdPlayer/dataHandler/buffer\\.dina[6]} {realSdPlayer/dataHandler/buffer\\.dina[7]}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe7]
set_property port_width 1 [get_debug_ports u_ila_0/probe7]
connect_debug_port u_ila_0/probe7 [get_nets [list CB_OBUF]]
set_property port_width 6 [get_debug_ports u_ila_0/probe7]
connect_debug_port u_ila_0/probe7 [get_nets [list {realSdPlayer/cmd[0]} {realSdPlayer/cmd[1]} {realSdPlayer/cmd[2]} {realSdPlayer/cmd[3]} {realSdPlayer/cmd[4]} {realSdPlayer/cmd[5]}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe8]
set_property port_width 1 [get_debug_ports u_ila_0/probe8]
connect_debug_port u_ila_0/probe8 [get_nets [list CC_OBUF]]
connect_debug_port u_ila_0/probe8 [get_nets [list {realSdPlayer/dataHandler/buffer\\.address_half}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe9]
set_property port_width 1 [get_debug_ports u_ila_0/probe9]
connect_debug_port u_ila_0/probe9 [get_nets [list CD_OBUF]]
connect_debug_port u_ila_0/probe9 [get_nets [list {realSdPlayer/dataHandler/buffer\\.clka}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe10]
set_property port_width 1 [get_debug_ports u_ila_0/probe10]
connect_debug_port u_ila_0/probe10 [get_nets [list CE_OBUF]]
connect_debug_port u_ila_0/probe10 [get_nets [list {realSdPlayer/dataHandler/buffer\\.ena}]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe11]
set_property port_width 1 [get_debug_ports u_ila_0/probe11]
connect_debug_port u_ila_0/probe11 [get_nets [list CF_OBUF]]
connect_debug_port u_ila_0/probe11 [get_nets [list realSdPlayer/fast_clk]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe12]
set_property port_width 1 [get_debug_ports u_ila_0/probe12]
connect_debug_port u_ila_0/probe12 [get_nets [list CG_OBUF]]
connect_debug_port u_ila_0/probe12 [get_nets [list realSdPlayer/fast_clk_enable]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe13]
set_property port_width 1 [get_debug_ports u_ila_0/probe13]
connect_debug_port u_ila_0/probe13 [get_nets [list realSdPlayer/read_command_listen]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe14]
set_property port_width 1 [get_debug_ports u_ila_0/probe14]
connect_debug_port u_ila_0/probe14 [get_nets [list realSdPlayer/read_command_received]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe15]
set_property port_width 1 [get_debug_ports u_ila_0/probe15]
connect_debug_port u_ila_0/probe15 [get_nets [list reset]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe16]
set_property port_width 1 [get_debug_ports u_ila_0/probe16]
connect_debug_port u_ila_0/probe16 [get_nets [list realSdPlayer/sd_data]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe17]
set_property port_width 1 [get_debug_ports u_ila_0/probe17]
connect_debug_port u_ila_0/probe17 [get_nets [list realSdPlayer/send_command_ready]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe18]
set_property port_width 1 [get_debug_ports u_ila_0/probe18]
connect_debug_port u_ila_0/probe18 [get_nets [list realSdPlayer/send_command_start]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe19]
set_property port_width 1 [get_debug_ports u_ila_0/probe19]
connect_debug_port u_ila_0/probe19 [get_nets [list realSdPlayer/slowSender/send_sd_cmd]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe20]
set_property port_width 1 [get_debug_ports u_ila_0/probe20]
connect_debug_port u_ila_0/probe20 [get_nets [list realSdPlayer/slow_clk]]
create_debug_port u_ila_0 probe
set_property PROBE_TYPE DATA_AND_TRIGGER [get_debug_ports u_ila_0/probe21]
set_property port_width 1 [get_debug_ports u_ila_0/probe21]
connect_debug_port u_ila_0/probe21 [get_nets [list realSdPlayer/stored_sd_cmd]]
set_property C_CLK_INPUT_FREQ_HZ 300000000 [get_debug_cores dbg_hub]
set_property C_ENABLE_CLK_DIVIDER false [get_debug_cores dbg_hub]
set_property C_USER_SCAN_CHAIN 1 [get_debug_cores dbg_hub]
SDVD.xpr
+453 -18
View File
@@ -44,7 +44,8 @@
<Option Name="SimulatorGccVersionRiviera" Val="9.3.0"/>
<Option Name="SimulatorGccVersionActiveHdl" Val="9.3.0"/>
<Option Name="BoardPart" Val=""/>
<Option Name="ActiveSimSet" Val="sim_1"/>
<Option Name="SourceMgmtMode" Val="DisplayOnly"/>
<Option Name="ActiveSimSet" Val="sd_controller_tb"/>
<Option Name="DefaultLib" Val="xil_defaultlib"/>
<Option Name="ProjectType" Val="Default"/>
<Option Name="IPRepoPath" Val="$PPRDIR/../../../fpga/vivado-library"/>
@@ -60,7 +61,7 @@
<Option Name="IPStaticSourceDir" Val="$PIPUSERFILESDIR/ipstatic"/>
<Option Name="EnableBDX" Val="FALSE"/>
<Option Name="DSABoardId" Val="nexys-a7-100t"/>
<Option Name="WTXSimLaunchSim" Val="87"/>
<Option Name="WTXSimLaunchSim" Val="211"/>
<Option Name="WTModelSimLaunchSim" Val="0"/>
<Option Name="WTQuestaLaunchSim" Val="0"/>
<Option Name="WTIesLaunchSim" Val="0"/>
@@ -91,6 +92,27 @@
<FileSets Version="1" Minor="32">
<FileSet Name="sources_1" Type="DesignSrcs" RelSrcDir="$PSRCDIR/sources_1" RelGenDir="$PGENDIR/sources_1">
<Filter Type="Srcs"/>
<File Path="$PPRDIR/lib/audio_buffer_interface.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/lib/sdvd_defs.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/design/audio/audio_buffer.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/design/debouncer.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
@@ -119,6 +141,13 @@
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/design/modular_clock_gen.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/design/playback_controller.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
@@ -126,6 +155,20 @@
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/design/audio/pwm.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/design/sd/rom_sd.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/design/segment_display/seconds_display.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
@@ -140,25 +183,55 @@
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/design/sdvd_defs.sv">
<File Path="$PPRDIR/lib/assertion_error.sv">
<FileInfo>
<Attr Name="AutoDisabled" Val="1"/>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/design/audio/audio_buffer.sv">
<File Path="$PPRDIR/roms/roundabout.mem">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/roms/even_flow_16.mem">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/design/sd/send_command.sv">
<FileInfo>
<Attr Name="AutoDisabled" Val="1"/>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/design/audio/pwm.sv">
<File Path="$PPRDIR/design/sd/crc_gen.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/design/sd/read_command.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/design/sd/read_data.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/design/sd/sd_controller.sv">
<FileInfo>
<Attr Name="AutoDisabled" Val="1"/>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
@@ -169,6 +242,7 @@
<Option Name="TopModule" Val="nexys_a7_top"/>
<Option Name="TopAutoSet" Val="TRUE"/>
<Option Name="VerilogDir" Val="$PPRDIR/design"/>
<Option Name="VerilogDir" Val="$PPRDIR/lib"/>
</Config>
</FileSet>
<FileSet Name="constrs_1" Type="Constrs" RelSrcDir="$PSRCDIR/constrs_1" RelGenDir="$PGENDIR/constrs_1">
@@ -260,16 +334,15 @@
</FileSet>
<FileSet Name="playback_controller_tb" Type="SimulationSrcs" RelSrcDir="$PSRCDIR/playback_controller_tb" RelGenDir="$PGENDIR/playback_controller_tb">
<Filter Type="Srcs"/>
<File Path="$PPRDIR/verification/playback_controller_tb.sv">
<File Path="$PPRDIR/lib/sdvd_defs.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/design/sdvd_defs.sv">
<File Path="$PPRDIR/verification/playback_controller_tb.sv">
<FileInfo>
<Attr Name="AutoDisabled" Val="1"/>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
@@ -320,6 +393,243 @@
<Option Name="xsim.simulate.runtime" Val="10s"/>
</Config>
</FileSet>
<FileSet Name="rom_sd_tb" Type="SimulationSrcs" RelSrcDir="$PSRCDIR/rom_sd_tb" RelGenDir="$PGENDIR/rom_sd_tb">
<Filter Type="Srcs"/>
<File Path="$PPRDIR/roms/testfile.mem">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/verification/sd/rom_sd_tb.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/verification/waveform_configs/rom_sd_waveform.wcfg">
<FileInfo>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/roms/consecutive.mem">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<Config>
<Option Name="DesignMode" Val="RTL"/>
<Option Name="TopModule" Val="rom_sd_tb"/>
<Option Name="TopLib" Val="xil_defaultlib"/>
<Option Name="TransportPathDelay" Val="0"/>
<Option Name="TransportIntDelay" Val="0"/>
<Option Name="SelectedSimModel" Val="rtl"/>
<Option Name="PamDesignTestbench" Val=""/>
<Option Name="PamDutBypassFile" Val="xil_dut_bypass"/>
<Option Name="PamSignalDriverFile" Val="xil_bypass_driver"/>
<Option Name="PamPseudoTop" Val="pseudo_tb"/>
<Option Name="SrcSet" Val="sources_1"/>
<Option Name="XSimWcfgFile" Val="$PPRDIR/verification/waveform_configs/rom_sd_waveform.wcfg"/>
<Option Name="CosimPdi" Val=""/>
<Option Name="CosimPlatform" Val=""/>
<Option Name="CosimElf" Val=""/>
<Option Name="xsim.simulate.runtime" Val="1s"/>
</Config>
</FileSet>
<FileSet Name="pwm_tb" Type="SimulationSrcs" RelSrcDir="$PSRCDIR/pwm_tb" RelGenDir="$PGENDIR/pwm_tb">
<Filter Type="Srcs"/>
<File Path="$PPRDIR/verification/audio/pwm_tb.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<Config>
<Option Name="DesignMode" Val="RTL"/>
<Option Name="TopModule" Val="pwm_tb"/>
<Option Name="TopLib" Val="xil_defaultlib"/>
<Option Name="TransportPathDelay" Val="0"/>
<Option Name="TransportIntDelay" Val="0"/>
<Option Name="SelectedSimModel" Val="rtl"/>
<Option Name="PamDesignTestbench" Val=""/>
<Option Name="PamDutBypassFile" Val="xil_dut_bypass"/>
<Option Name="PamSignalDriverFile" Val="xil_bypass_driver"/>
<Option Name="PamPseudoTop" Val="pseudo_tb"/>
<Option Name="SrcSet" Val="sources_1"/>
<Option Name="CosimPdi" Val=""/>
<Option Name="CosimPlatform" Val=""/>
<Option Name="CosimElf" Val=""/>
<Option Name="xsim.simulate.runtime" Val="1s"/>
</Config>
</FileSet>
<FileSet Name="crc_gen_tb" Type="SimulationSrcs" RelSrcDir="$PSRCDIR/crc_gen_tb" RelGenDir="$PGENDIR/crc_gen_tb">
<Filter Type="Srcs"/>
<File Path="$PPRDIR/verification/sd/rom_sd_tb.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/verification/sd/crc_gen_tb.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/verification/waveform_configs/crc_gen_tb_behav.wcfg">
<FileInfo>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<Config>
<Option Name="DesignMode" Val="RTL"/>
<Option Name="TopModule" Val="crc_gen_tb"/>
<Option Name="TopLib" Val="xil_defaultlib"/>
<Option Name="TransportPathDelay" Val="0"/>
<Option Name="TransportIntDelay" Val="0"/>
<Option Name="SelectedSimModel" Val="rtl"/>
<Option Name="PamDesignTestbench" Val=""/>
<Option Name="PamDutBypassFile" Val="xil_dut_bypass"/>
<Option Name="PamSignalDriverFile" Val="xil_bypass_driver"/>
<Option Name="PamPseudoTop" Val="pseudo_tb"/>
<Option Name="SrcSet" Val="sources_1"/>
<Option Name="XSimWcfgFile" Val="$PPRDIR/verification/waveform_configs/crc_gen_tb_behav.wcfg"/>
<Option Name="CosimPdi" Val=""/>
<Option Name="CosimPlatform" Val=""/>
<Option Name="CosimElf" Val=""/>
<Option Name="xsim.simulate.runtime" Val="1s"/>
</Config>
</FileSet>
<FileSet Name="send_command_tb" Type="SimulationSrcs" RelSrcDir="$PSRCDIR/send_command_tb" RelGenDir="$PGENDIR/send_command_tb">
<Filter Type="Srcs"/>
<File Path="$PPRDIR/verification/sd/send_command_tb.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<Config>
<Option Name="DesignMode" Val="RTL"/>
<Option Name="TopModule" Val="send_command_tb"/>
<Option Name="TopLib" Val="xil_defaultlib"/>
<Option Name="TransportPathDelay" Val="0"/>
<Option Name="TransportIntDelay" Val="0"/>
<Option Name="SelectedSimModel" Val="rtl"/>
<Option Name="PamDesignTestbench" Val=""/>
<Option Name="PamDutBypassFile" Val="xil_dut_bypass"/>
<Option Name="PamSignalDriverFile" Val="xil_bypass_driver"/>
<Option Name="PamPseudoTop" Val="pseudo_tb"/>
<Option Name="SrcSet" Val="sources_1"/>
<Option Name="CosimPdi" Val=""/>
<Option Name="CosimPlatform" Val=""/>
<Option Name="CosimElf" Val=""/>
<Option Name="xsim.simulate.runtime" Val="1s"/>
</Config>
</FileSet>
<FileSet Name="read_command_tb" Type="SimulationSrcs" RelSrcDir="$PSRCDIR/read_command_tb" RelGenDir="$PGENDIR/read_command_tb">
<Filter Type="Srcs"/>
<File Path="$PPRDIR/verification/sd/read_command_tb.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/verification/waveform_configs/read_command_tb_behav.wcfg">
<FileInfo>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<Config>
<Option Name="DesignMode" Val="RTL"/>
<Option Name="TopModule" Val="read_command_tb"/>
<Option Name="TopLib" Val="xil_defaultlib"/>
<Option Name="TransportPathDelay" Val="0"/>
<Option Name="TransportIntDelay" Val="0"/>
<Option Name="SelectedSimModel" Val="rtl"/>
<Option Name="PamDesignTestbench" Val=""/>
<Option Name="PamDutBypassFile" Val="xil_dut_bypass"/>
<Option Name="PamSignalDriverFile" Val="xil_bypass_driver"/>
<Option Name="PamPseudoTop" Val="pseudo_tb"/>
<Option Name="SrcSet" Val="sources_1"/>
<Option Name="XSimWcfgFile" Val="$PPRDIR/verification/waveform_configs/read_command_tb_behav.wcfg"/>
<Option Name="CosimPdi" Val=""/>
<Option Name="CosimPlatform" Val=""/>
<Option Name="CosimElf" Val=""/>
<Option Name="xsim.simulate.runtime" Val="1s"/>
</Config>
</FileSet>
<FileSet Name="read_data_tb" Type="SimulationSrcs" RelSrcDir="$PSRCDIR/read_data_tb" RelGenDir="$PGENDIR/read_data_tb">
<Filter Type="Srcs"/>
<File Path="$PPRDIR/verification/sd/read_data_tb.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/verification/waveform_configs/read_data_tb_behav.wcfg">
<FileInfo>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<Config>
<Option Name="DesignMode" Val="RTL"/>
<Option Name="TopModule" Val="read_data_tb"/>
<Option Name="TopLib" Val="xil_defaultlib"/>
<Option Name="TransportPathDelay" Val="0"/>
<Option Name="TransportIntDelay" Val="0"/>
<Option Name="SelectedSimModel" Val="rtl"/>
<Option Name="PamDesignTestbench" Val=""/>
<Option Name="PamDutBypassFile" Val="xil_dut_bypass"/>
<Option Name="PamSignalDriverFile" Val="xil_bypass_driver"/>
<Option Name="PamPseudoTop" Val="pseudo_tb"/>
<Option Name="SrcSet" Val="sources_1"/>
<Option Name="XSimWcfgFile" Val="$PPRDIR/verification/waveform_configs/read_data_tb_behav.wcfg"/>
<Option Name="CosimPdi" Val=""/>
<Option Name="CosimPlatform" Val=""/>
<Option Name="CosimElf" Val=""/>
<Option Name="xsim.simulate.runtime" Val="1s"/>
</Config>
</FileSet>
<FileSet Name="sd_controller_tb" Type="SimulationSrcs" RelSrcDir="$PSRCDIR/sd_controller_tb" RelGenDir="$PGENDIR/sd_controller_tb">
<File Path="$PPRDIR/verification/sd/sd_controller_tb.sv">
<FileInfo>
<Attr Name="UsedIn" Val="synthesis"/>
<Attr Name="UsedIn" Val="implementation"/>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<File Path="$PPRDIR/verification/waveform_configs/sd_controller_tb_behav.wcfg">
<FileInfo>
<Attr Name="UsedIn" Val="simulation"/>
</FileInfo>
</File>
<Config>
<Option Name="DesignMode" Val="RTL"/>
<Option Name="TopModule" Val="sd_controller_tb"/>
<Option Name="TopLib" Val="xil_defaultlib"/>
<Option Name="TransportPathDelay" Val="0"/>
<Option Name="TransportIntDelay" Val="0"/>
<Option Name="SelectedSimModel" Val="rtl"/>
<Option Name="PamDesignTestbench" Val=""/>
<Option Name="PamDutBypassFile" Val="xil_dut_bypass"/>
<Option Name="PamSignalDriverFile" Val="xil_bypass_driver"/>
<Option Name="PamPseudoTop" Val="pseudo_tb"/>
<Option Name="SrcSet" Val="sources_1"/>
<Option Name="XSimWcfgFile" Val="$PPRDIR/verification/waveform_configs/sd_controller_tb_behav.wcfg"/>
<Option Name="CosimPdi" Val=""/>
<Option Name="CosimPlatform" Val=""/>
<Option Name="CosimElf" Val=""/>
<Option Name="xsim.simulate.runtime" Val="1s"/>
</Config>
</FileSet>
</FileSets>
<Simulators>
<Simulator Name="XSim">
@@ -345,9 +655,7 @@
<Runs Version="1" Minor="22">
<Run Id="synth_1" Type="Ft3:Synth" SrcSet="sources_1" Part="xc7a100tcsg324-1" ConstrsSet="constrs_1" Description="Vivado Synthesis Defaults" AutoIncrementalCheckpoint="true" IncrementalCheckpoint="$PSRCDIR/utils_1/imports/synth_1/nexys_a7_top.dcp" WriteIncrSynthDcp="false" State="current" Dir="$PRUNDIR/synth_1" IncludeInArchive="true" IsChild="false" AutoIncrementalDir="$PSRCDIR/utils_1/imports/synth_1" AutoRQSDir="$PSRCDIR/utils_1/imports/synth_1" ParallelReportGen="true">
<Strategy Version="1" Minor="2">
<StratHandle Name="Vivado Synthesis Defaults" Flow="Vivado Synthesis 2024">
<Desc>Vivado Synthesis Defaults</Desc>
</StratHandle>
<StratHandle Name="Vivado Synthesis Defaults" Flow="Vivado Synthesis 2024"/>
<Step Id="synth_design"/>
</Strategy>
<GeneratedRun Dir="$PRUNDIR" File="gen_run.xml"/>
@@ -355,11 +663,9 @@
<Report Name="ROUTE_DESIGN.REPORT_METHODOLOGY" Enabled="1"/>
<RQSFiles/>
</Run>
<Run Id="impl_1" Type="Ft2:EntireDesign" Part="xc7a100tcsg324-1" ConstrsSet="constrs_1" Description="Default settings for Implementation." AutoIncrementalCheckpoint="false" WriteIncrSynthDcp="false" State="current" Dir="$PRUNDIR/impl_1" SynthRun="synth_1" IncludeInArchive="true" IsChild="false" GenFullBitstream="true" AutoIncrementalDir="$PSRCDIR/utils_1/imports/impl_1" LaunchOptions="-jobs 2 " AutoRQSDir="$PSRCDIR/utils_1/imports/impl_1" ParallelReportGen="true">
<Run Id="impl_1" Type="Ft2:EntireDesign" Part="xc7a100tcsg324-1" ConstrsSet="constrs_1" Description="Default settings for Implementation." AutoIncrementalCheckpoint="false" WriteIncrSynthDcp="false" State="current" Dir="$PRUNDIR/impl_1" SynthRun="synth_1" IncludeInArchive="true" IsChild="false" GenFullBitstream="true" AutoIncrementalDir="$PSRCDIR/utils_1/imports/impl_1" LaunchOptions="-jobs 4 " AutoRQSDir="$PSRCDIR/utils_1/imports/impl_1" ParallelReportGen="true">
<Strategy Version="1" Minor="2">
<StratHandle Name="Vivado Implementation Defaults" Flow="Vivado Implementation 2024">
<Desc>Default settings for Implementation.</Desc>
</StratHandle>
<StratHandle Name="Vivado Implementation Defaults" Flow="Vivado Implementation 2024"/>
<Step Id="init_design"/>
<Step Id="opt_design"/>
<Step Id="power_opt_design"/>
@@ -633,6 +939,135 @@
<Report Name="ROUTE_DESIGN.REPORT_METHODOLOGY" Enabled="1"/>
<RQSFiles/>
</Run>
<Run Id="impl_1_copy_3" Type="Ft2:EntireDesign" Part="xc7a100tcsg324-1" ConstrsSet="constrs_1" Description="Default settings for Implementation." AutoIncrementalCheckpoint="false" WriteIncrSynthDcp="false" SynthRun="synth_1" IncludeInArchive="true" IsChild="false" GenFullBitstream="true" AutoIncrementalDir="$PSRCDIR/utils_1/imports/impl_1/impl_1_copy_3" AutoRQSDir="$PSRCDIR/utils_1/imports/impl_1/impl_1_copy_3" ParallelReportGen="true">
<Strategy Version="1" Minor="2">
<StratHandle Name="Vivado Implementation Defaults" Flow="Vivado Implementation 2024"/>
<Step Id="init_design"/>
<Step Id="opt_design"/>
<Step Id="power_opt_design"/>
<Step Id="place_design"/>
<Step Id="post_place_power_opt_design"/>
<Step Id="phys_opt_design"/>
<Step Id="route_design"/>
<Step Id="post_route_phys_opt_design"/>
<Step Id="write_bitstream"/>
</Strategy>
<ReportStrategy Name="Vivado Implementation Default Reports" Flow="Vivado Implementation 2024" CtrlBit="true">
<ReportConfig DisplayName="Timing Summary - Design Initialization" Name="impl_1_copy_3_init_report_timing_summary_0" Spec="report_timing_summary" RunStep="init_design" ReportFile="nexys_a7_top_timing_summary_init_1.rpt" Version="1" Minor="0" IsDisabled="true">
<ReportConfigOption Name="max_paths" Type="" Value="10"/>
<ReportConfigOption Name="report_unconstrained" Type="" Value="true"/>
<ReportConfigOutputOption Name="pb" Type="string" Value=""/>
<ReportConfigOutputOption Name="rpx" Type="string" Value=""/>
</ReportConfig>
<ReportConfig DisplayName="DRC - Opt Design" Name="impl_1_copy_3_opt_report_drc_0" Spec="report_drc" RunStep="opt_design" ReportFile="nexys_a7_top_drc_opted_1.rpt" Version="1" Minor="0">
<ReportConfigOption Name="dummy_option" Type="string"/>
<ReportConfigOutputOption Name="pb" Type="string" Value=""/>
<ReportConfigOutputOption Name="rpx" Type="string" Value=""/>
</ReportConfig>
<ReportConfig DisplayName="Timing Summary - Opt Design" Name="impl_1_copy_3_opt_report_timing_summary_0" Spec="report_timing_summary" RunStep="opt_design" ReportFile="nexys_a7_top_timing_summary_opted_1.rpt" Version="1" Minor="0" IsDisabled="true">
<ReportConfigOption Name="max_paths" Type="" Value="10"/>
<ReportConfigOption Name="report_unconstrained" Type="" Value="true"/>
<ReportConfigOutputOption Name="pb" Type="string" Value=""/>
<ReportConfigOutputOption Name="rpx" Type="string" Value=""/>
</ReportConfig>
<ReportConfig DisplayName="Timing Summary - Power Opt Design" Name="impl_1_copy_3_power_opt_report_timing_summary_0" Spec="report_timing_summary" RunStep="power_opt_design" ReportFile="nexys_a7_top_timing_summary_pwropted_1.rpt" Version="1" Minor="0" IsDisabled="true">
<ReportConfigOption Name="max_paths" Type="" Value="10"/>
<ReportConfigOption Name="report_unconstrained" Type="" Value="true"/>
<ReportConfigOutputOption Name="pb" Type="string" Value=""/>
<ReportConfigOutputOption Name="rpx" Type="string" Value=""/>
</ReportConfig>
<ReportConfig DisplayName="IO - Place Design" Name="impl_1_copy_3_place_report_io_0" Spec="report_io" RunStep="place_design" ReportFile="nexys_a7_top_io_placed_1.rpt" Version="1" Minor="0">
<ReportConfigOption Name="dummy_option" Type="string"/>
</ReportConfig>
<ReportConfig DisplayName="Utilization - Place Design" Name="impl_1_copy_3_place_report_utilization_0" Spec="report_utilization" RunStep="place_design" ReportFile="nexys_a7_top_utilization_placed_1.rpt" Version="1" Minor="0">
<ReportConfigOption Name="dummy_option" Type="string"/>
<ReportConfigOutputOption Name="pb" Type="string" Value=""/>
</ReportConfig>
<ReportConfig DisplayName="Control Sets - Place Design" Name="impl_1_copy_3_place_report_control_sets_0" Spec="report_control_sets" RunStep="place_design" ReportFile="nexys_a7_top_control_sets_placed_1.rpt" Version="1" Minor="0">
<ReportConfigOption Name="verbose" Type="" Value="true"/>
</ReportConfig>
<ReportConfig DisplayName="Incremental Reuse - Place Design" Name="impl_1_copy_3_place_report_incremental_reuse_0" Spec="report_incremental_reuse" RunStep="place_design" ReportFile="nexys_a7_top_incremental_reuse_pre_placed.rpt_1.rpt" Version="1" Minor="0" IsDisabled="true">
<ReportConfigOption Name="dummy_option" Type="string"/>
</ReportConfig>
<ReportConfig DisplayName="Incremental Reuse - Place Design" Name="impl_1_copy_3_place_report_incremental_reuse_1" Spec="report_incremental_reuse" RunStep="place_design" ReportFile="nexys_a7_top_incremental_reuse_placed_1.rpt" Version="1" Minor="0" IsDisabled="true">
<ReportConfigOption Name="dummy_option" Type="string"/>
</ReportConfig>
<ReportConfig DisplayName="Timing Summary - Place Design" Name="impl_1_copy_3_place_report_timing_summary_0" Spec="report_timing_summary" RunStep="place_design" ReportFile="nexys_a7_top_timing_summary_placed_1.rpt" Version="1" Minor="0" IsDisabled="true">
<ReportConfigOption Name="max_paths" Type="" Value="10"/>
<ReportConfigOption Name="report_unconstrained" Type="" Value="true"/>
<ReportConfigOutputOption Name="pb" Type="string" Value=""/>
<ReportConfigOutputOption Name="rpx" Type="string" Value=""/>
</ReportConfig>
<ReportConfig DisplayName="Timing Summary - Post-Place Power Opt Design" Name="impl_1_copy_3_post_place_power_opt_report_timing_summary_0" Spec="report_timing_summary" RunStep="post_place_power_opt_design" ReportFile="nexys_a7_top_timing_summary_postplace_pwropted_1.rpt" Version="1" Minor="0" IsDisabled="true">
<ReportConfigOption Name="max_paths" Type="" Value="10"/>
<ReportConfigOption Name="report_unconstrained" Type="" Value="true"/>
<ReportConfigOutputOption Name="pb" Type="string" Value=""/>
<ReportConfigOutputOption Name="rpx" Type="string" Value=""/>
</ReportConfig>
<ReportConfig DisplayName="Timing Summary - Post-Place Phys Opt Design" Name="impl_1_copy_3_phys_opt_report_timing_summary_0" Spec="report_timing_summary" RunStep="phys_opt_design" ReportFile="nexys_a7_top_timing_summary_physopted_1.rpt" Version="1" Minor="0" IsDisabled="true">
<ReportConfigOption Name="max_paths" Type="" Value="10"/>
<ReportConfigOption Name="report_unconstrained" Type="" Value="true"/>
<ReportConfigOutputOption Name="pb" Type="string" Value=""/>
<ReportConfigOutputOption Name="rpx" Type="string" Value=""/>
</ReportConfig>
<ReportConfig DisplayName="implementation_log" Name="impl_1_copy_3_route_implementation_log_0" Spec="" RunStep="route_design" ReportFile="nexys_a7_top.vdi">
<ReportConfigOption Name="dummy_option" Type="string"/>
</ReportConfig>
<ReportConfig DisplayName="DRC - Route Design" Name="impl_1_copy_3_route_report_drc_0" Spec="report_drc" RunStep="route_design" ReportFile="nexys_a7_top_drc_routed_1.rpt" Version="1" Minor="0">
<ReportConfigOption Name="dummy_option" Type="string"/>
<ReportConfigOutputOption Name="pb" Type="string" Value=""/>
<ReportConfigOutputOption Name="rpx" Type="string" Value=""/>
</ReportConfig>
<ReportConfig DisplayName="Methodology - Route Design" Name="impl_1_copy_3_route_report_methodology_0" Spec="report_methodology" RunStep="route_design" ReportFile="nexys_a7_top_methodology_drc_routed_1.rpt" Version="1" Minor="0">
<ReportConfigOption Name="dummy_option" Type="string"/>
<ReportConfigOutputOption Name="pb" Type="string" Value=""/>
<ReportConfigOutputOption Name="rpx" Type="string" Value=""/>
</ReportConfig>
<ReportConfig DisplayName="Power - Route Design" Name="impl_1_copy_3_route_report_power_0" Spec="report_power" RunStep="route_design" ReportFile="nexys_a7_top_power_routed_1.rpt" Version="1" Minor="0">
<ReportConfigOption Name="dummy_option" Type="string"/>
<ReportConfigOutputOption Name="pb" Type="string" Value=""/>
<ReportConfigOutputOption Name="rpx" Type="string" Value=""/>
</ReportConfig>
<ReportConfig DisplayName="Route Status - Route Design" Name="impl_1_copy_3_route_report_route_status_0" Spec="report_route_status" RunStep="route_design" ReportFile="nexys_a7_top_route_status_1.rpt" Version="1" Minor="0">
<ReportConfigOption Name="dummy_option" Type="string"/>
<ReportConfigOutputOption Name="pb" Type="string" Value=""/>
</ReportConfig>
<ReportConfig DisplayName="Timing Summary - Route Design" Name="impl_1_copy_3_route_report_timing_summary_0" Spec="report_timing_summary" RunStep="route_design" ReportFile="nexys_a7_top_timing_summary_routed_1.rpt" Version="1" Minor="0">
<ReportConfigOption Name="max_paths" Type="" Value="10"/>
<ReportConfigOption Name="report_unconstrained" Type="" Value="true"/>
<ReportConfigOutputOption Name="pb" Type="string" Value=""/>
<ReportConfigOutputOption Name="rpx" Type="string" Value=""/>
</ReportConfig>
<ReportConfig DisplayName="Incremental Reuse - Route Design" Name="impl_1_copy_3_route_report_incremental_reuse_0" Spec="report_incremental_reuse" RunStep="route_design" ReportFile="nexys_a7_top_incremental_reuse_routed_1.rpt" Version="1" Minor="0">
<ReportConfigOption Name="dummy_option" Type="string"/>
</ReportConfig>
<ReportConfig DisplayName="Clock Utilization - Route Design" Name="impl_1_copy_3_route_report_clock_utilization_0" Spec="report_clock_utilization" RunStep="route_design" ReportFile="nexys_a7_top_clock_utilization_routed_1.rpt" Version="1" Minor="0">
<ReportConfigOption Name="dummy_option" Type="string"/>
</ReportConfig>
<ReportConfig DisplayName="Bus Skew - Route Design" Name="impl_1_copy_3_route_report_bus_skew_0" Spec="report_bus_skew" RunStep="route_design" ReportFile="nexys_a7_top_bus_skew_routed_1.rpt" Version="1" Minor="1">
<ReportConfigOption Name="warn_on_violation" Type="" Value="true"/>
<ReportConfigOutputOption Name="pb" Type="string" Value=""/>
<ReportConfigOutputOption Name="rpx" Type="string" Value=""/>
</ReportConfig>
<ReportConfig DisplayName="Timing Summary - Post-Route Phys Opt Design" Name="impl_1_copy_3_post_route_phys_opt_report_timing_summary_0" Spec="report_timing_summary" RunStep="post_route_phys_opt_design" ReportFile="nexys_a7_top_timing_summary_postroute_physopted_1.rpt" Version="1" Minor="0">
<ReportConfigOption Name="max_paths" Type="" Value="10"/>
<ReportConfigOption Name="report_unconstrained" Type="" Value="true"/>
<ReportConfigOption Name="warn_on_violation" Type="" Value="true"/>
<ReportConfigOutputOption Name="pb" Type="string" Value=""/>
<ReportConfigOutputOption Name="rpx" Type="string" Value=""/>
</ReportConfig>
<ReportConfig DisplayName="Bus Skew - Post-Route Phys Opt Design" Name="impl_1_copy_3_post_route_phys_opt_report_bus_skew_0" Spec="report_bus_skew" RunStep="post_route_phys_opt_design" ReportFile="nexys_a7_top_bus_skew_postroute_physopted_1.rpt" Version="1" Minor="1">
<ReportConfigOption Name="warn_on_violation" Type="" Value="true"/>
<ReportConfigOutputOption Name="pb" Type="string" Value=""/>
<ReportConfigOutputOption Name="rpx" Type="string" Value=""/>
</ReportConfig>
<ReportConfig DisplayName="implementation_log" Name="impl_1_copy_3_bitstream_implementation_log_0" Spec="" RunStep="write_bitstream" ReportFile="nexys_a7_top.vdi">
<ReportConfigOption Name="dummy_option" Type="string"/>
</ReportConfig>
</ReportStrategy>
<Report Name="ROUTE_DESIGN.REPORT_METHODOLOGY" Enabled="1"/>
<RQSFiles/>
</Run>
</Runs>
<Board/>
<DashboardSummary Version="1" Minor="0">
design/audio/audio_buffer.sv
+58 -48
View File
@@ -1,6 +1,18 @@
/****
* audio_buffer.sv - holds a 2KiB audio buffer of 16-bit pcm audio
* samples (with pcm being the audio format we are using)
*
* @author: Waylon Cude, Dilanthi
* @date: 6/12/2025
*
* */
//define used here because verilator needs it but vivado is smart enough
//not to.
`ifdef VERILATOR
`include "sdvd_defs.sv"
`endif
import sdvd_defs::SPEED;
//this interfaces with block ram
@@ -22,11 +34,6 @@ module audio_buffer(
// Inputs for the memory buffer
audio_buffer_interface.receiver driver
);
// Whether the current address being read from is in the upper or lower
// half of the 2KiB buffer
let address_half = driver.address_half;
logic [9:0] address;
// State register
@@ -36,8 +43,11 @@ logic [15:0] doutb;
// A single bit counter, to avoid feeding samples given the 1 cycle read delay
logic delay;
// Whether the current address being read from is in the upper or lower
// half of the 2KiB buffer
//
// The MSB of the address == higher/lower half address
assign address_half = address[9];
assign driver.address_half = address[9];
always_ff @(posedge clk) begin
enb <= 0;
@@ -65,8 +75,6 @@ always_ff @(posedge clk) begin
// This will overflow to the correct value always
address <= address + speed;
enb <= 1;
// NOTE: I really don't know a good way to generate the load
// signal. It maybe could be an inverted 48khz clock?
if (delay == 0) begin
sample <= doutb;
end
@@ -79,67 +87,69 @@ always_ff @(posedge clk) begin
end
end
//xpm_memory_sdpram #(
// .WRITE_DATA_WIDTH_A(16)
//) buffer ();
//vivado block ram xpm macro
xpm_memory_sdpram #(
.ADDR_WIDTH_A(11), // DECIMAL
.ADDR_WIDTH_B(10), // DECIMAL
.AUTO_SLEEP_TIME(0), // DECIMAL
.BYTE_WRITE_WIDTH_A(8), // DECIMAL
.CASCADE_HEIGHT(0), // DECIMAL
.CLOCKING_MODE("independent_clock"), // String
.ECC_BIT_RANGE("7:0"), // String
.ECC_MODE("no_ecc"), // String
.ECC_TYPE("none"), // String
.IGNORE_INIT_SYNTH(0), // DECIMAL
.MEMORY_INIT_FILE("none"), // String
.MEMORY_INIT_PARAM("0"), // String
.MEMORY_OPTIMIZATION("true"), // String
.MEMORY_PRIMITIVE("auto"), // String
.MEMORY_SIZE(16*1024), // DECIMAL
.MESSAGE_CONTROL(0), // DECIMAL
.RAM_DECOMP("auto"), // String
.READ_DATA_WIDTH_B(16), // DECIMAL
.READ_LATENCY_B(1), // DECIMAL
.READ_RESET_VALUE_B("0"), // String
.RST_MODE_A("SYNC"), // String
.RST_MODE_B("SYNC"), // String
.SIM_ASSERT_CHK(0), // DECIMAL; 0=disable simulation messages, 1=enable simulation messages
.USE_EMBEDDED_CONSTRAINT(0), // DECIMAL
.USE_MEM_INIT(1), // DECIMAL
.USE_MEM_INIT_MMI(0), // DECIMAL
.WAKEUP_TIME("disable_sleep"), // String
.WRITE_DATA_WIDTH_A(8), // DECIMAL
.WRITE_MODE_B("no_change"), // String
.WRITE_PROTECT(1) // DECIMAL
.ADDR_WIDTH_A(11), // DECIMAL
.ADDR_WIDTH_B(10), // DECIMAL
.AUTO_SLEEP_TIME(0), // DECIMAL
.BYTE_WRITE_WIDTH_A(8), // DECIMAL
.CASCADE_HEIGHT(0), // DECIMAL
.CLOCKING_MODE("independent_clock"), // String
.ECC_BIT_RANGE("7:0"), // String
.ECC_MODE("no_ecc"), // String
.ECC_TYPE("none"), // String
.IGNORE_INIT_SYNTH(0), // DECIMAL
.MEMORY_INIT_FILE("none"), // String
.MEMORY_INIT_PARAM("0"), // String
.MEMORY_OPTIMIZATION("true"), // String
.MEMORY_PRIMITIVE("auto"), // String
.MEMORY_SIZE(16*1024), // DECIMAL
.MESSAGE_CONTROL(0), // DECIMAL
.RAM_DECOMP("auto"), // String
.READ_DATA_WIDTH_B(16), // DECIMAL
.READ_LATENCY_B(1), // DECIMAL
.READ_RESET_VALUE_B("0"), // String
.RST_MODE_A("SYNC"), // String
.RST_MODE_B("SYNC"), // String
.SIM_ASSERT_CHK(0), // DECIMAL; 0=disable simulation messages, 1=enable simulation messages
.USE_EMBEDDED_CONSTRAINT(0), // DECIMAL
.USE_MEM_INIT(1), // DECIMAL
.USE_MEM_INIT_MMI(0), // DECIMAL
.WAKEUP_TIME("disable_sleep"), // String
.WRITE_DATA_WIDTH_A(8), // DECIMAL
.WRITE_MODE_B("no_change"), // String
.WRITE_PROTECT(1) // DECIMAL
)
buffer (
.doutb(doutb), // READ_DATA_WIDTH_B-bit output: Data output for port B read operations.
.addra(driver.addra), // ADDR_WIDTH_A-bit input: Address for port A write operations.
.addra(driver.addra), // ADDR_WIDTH_A-bit input: Address for port A write operations.
.addrb(address), // ADDR_WIDTH_B-bit input: Address for port B read operations.
.clka(driver.clka), // 1-bit input: Clock signal for port A. Also clocks port B when
.clka(driver.clka), // 1-bit input: Clock signal for port A. Also clocks port B when
// parameter CLOCKING_MODE is "common_clock".
.clkb(clk), // 1-bit input: Clock signal for port B when parameter CLOCKING_MODE is
// "independent_clock". Unused when parameter CLOCKING_MODE is
// "common_clock".
.dina(driver.dina), // WRITE_DATA_WIDTH_A-bit input: Data input for port A write operations.
.ena(driver.ena), // 1-bit input: Memory enable signal for port A. Must be high on clock
.dina(driver.dina), // WRITE_DATA_WIDTH_A-bit input: Data input for port A write operations.
.ena(driver.ena), // 1-bit input: Memory enable signal for port A. Must be high on clock
// cycles when write operations are initiated. Pipelined internally.
.enb(enb), // 1-bit input: Memory enable signal for port B. Must be high on clock
// cycles when read operations are initiated. Pipelined internally.
//active high reset
.rstb(reset), // 1-bit input: Reset signal for the final port B output register stage.
.rstb(reset), // 1-bit input: Reset signal for the final port B output register stage.
// Synchronously resets output port doutb to the value specified by
// parameter READ_RESET_VALUE_B.
.wea(driver.ena) // WRITE_DATA_WIDTH_A/BYTE_WRITE_WIDTH_A-bit input: Write enable vector
.wea(driver.ena), // WRITE_DATA_WIDTH_A/BYTE_WRITE_WIDTH_A-bit input: Write enable vector
// for port A input data port dina. 1 bit wide when word-wide writes are
// used. In byte-wide write configurations, each bit controls the
// writing one byte of dina to address addra. For example, to
// synchronously write only bits [15-8] of dina when WRITE_DATA_WIDTH_A
// is 32, wea would be 4'b0010.
.sleep(0), // The XPM macros say these can be removed, but when I did this the
.injectsbiterra(0), // entire block memory got optimized out. These were readded in later
.injectdbiterra(0),
.regceb(enb)
);
endmodule
design/audio/pwm.sv
+9 -4
View File
@@ -1,8 +1,9 @@
/****
* pwm.sv - [must edit in future]
* pwm.sv - drives the pwm audio output on the FPGA given a single 16-bit
* sample.
*
* @author: Dilanthi Prentice, Waylon Cude
* @date: [not sure when due yet]
* @date: 6-12-2025
*
*
* */
@@ -15,8 +16,11 @@ module pwm(
// The audio output pin
output wire pwm_pin
);
// This can't be 16 or we are slowing the audio rate down by a factor of
// 2^5=32
parameter DEPTH=11;
logic [15:0] pulse_counter;
logic [DEPTH-1:0] pulse_counter;
logic [15:0] sample_buffer;
logic should_output;
@@ -26,6 +30,7 @@ begin
begin
pulse_counter <= 0;
sample_buffer <= 0;
should_output <= 0;
end
else
@@ -35,7 +40,7 @@ begin
pulse_counter <= pulse_counter + 1;
if (pulse_counter < sample_buffer)
if (pulse_counter < sample_buffer[15-:DEPTH])
should_output <= 1;
else
should_output <= 0;
design/debouncer.sv
+8
View File
@@ -1,3 +1,11 @@
/***
* debouncer.sv - generates a debounced button press and turns it into
* a single pulse.
*
* @author: Waylon Cude, Dilanthi Prentice
* @date: 6-12-25
*
* */
//NOTE: you should drive this with a slow clock to actually debounce input
module debouncer(input logic clk, input reset, input source, output logic out);
design/low_freq_clock_gen.sv
+10 -1
View File
@@ -1,3 +1,12 @@
/****
* low_freq_clock_gen.sv - Generates different clock frequencies to drive
* different state machines and different parts of
* the design.
*
* @author: Waylon Cude, Dilanthi Prentice
* @date: 6/12/2025
* */
//Define used because verilator needs it but vivado is samrt enough not to
`ifdef VERILATOR
`include "sdvd_defs.sv"
`endif
@@ -10,7 +19,7 @@ module low_freq_clock_gen(
output logic clk1k, clk10h, seconds_pulse
);
// Hardcoded to be 1,000,000/4,000
// Hardcoded to be 1,000,000/4,000 (25,000)
// Relying on constant maths makes it the wrong size
localparam num_cycles = 25_000;
design/modular_clock_gen.sv
+34
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@@ -0,0 +1,34 @@
/****
* modular_clock_gen.sv - parameterizable clock divider.
*
* @author: Waylon Cude, Dilanthi Prentice
* @date: 6/12/2025
*
* */
module modular_clock_gen(
input clk, reset,
output logic oclk
);
//parameter has no default because the user should always set it
parameter DIVISOR;
logic [$clog2(DIVISOR)-1:0] counter;
logic set;
always_ff @(posedge clk) begin
// modular clock has to keep ticking through reset
// so everything with a synchronous reset actually works
if (reset && !set) begin
counter <= DIVISOR-1;
set <= 1;
end
else if (counter == 0)
counter <= DIVISOR-1;
else
counter <= counter - 1;
oclk <= counter < (DIVISOR/2);
end
endmodule
design/nexys_a7_top.sv
+75 -3
View File
@@ -1,3 +1,10 @@
/***
* nexys_a7_top.sv - top level design module specific to Nexys A7100T.
*
* @author: Waylon Cude, Dilanthi Prentice
* @date: 6/12/2025
*
* **/
`ifdef VERILATOR
`include "sdvd_defs.sv"
`endif
@@ -5,8 +12,14 @@ import sdvd_defs::SPEED;
module nexys_a7_top(
input logic CLK100MHZ, CPU_RESETN,
input logic BTNC, BTNR,
output logic AUD_PWM, AUD_SD,
output logic CA,CB,CC,CD,CE,CF,CG,
output logic [7:0] AN
output logic [7:0] AN,
output wire LED[0:0],
output wire SD_RESET,SD_SCK,
inout wire [3:0] SD_DAT,
inout wire SD_CMD,
input wire SD_CD
);
// Active high reset
@@ -14,10 +27,13 @@ wire reset;
assign reset = ~CPU_RESETN;
logic clk_1khz, clk_10hz;
logic clk_48khz, clk_1mhz;
logic seconds_pulse;
SPEED speed;
audio_buffer_interface audio_interface();
// Map C{A-G} to an array of 7-segment displays
wire [6:0] segments [7:0];
wire [2:0] segment_mux_select;
@@ -25,18 +41,33 @@ wire [2:0] segment_mux_select;
// These segments are currently unused
assign segments[7] = 0;
assign segments[6] = 0;
// These are the ones we're using
assign {CA,CB,CC,CD,CE,CF,CG} = ~segments[segment_mux_select];
logic [$clog2(60)-1:0] seconds;
logic [$clog2(60)-1:0] minutes;
logic [$clog2(60)-1:0] hours;
low_freq_clock_gen clockGen(CLK100MHZ, reset, speed, clk_1khz, clk_10hz, seconds_pulse);
logic [15:0] audio_sample;
logic sd_ready;
logic playing;
assign LED[0] = playing;
assign AUD_SD = playing;
low_freq_clock_gen clockGen(CLK100MHZ, reset, speed, 'z, clk_10hz, seconds_pulse);
modular_clock_gen #(100_000) anodeClock(CLK100MHZ, reset, clk_1khz);
// Create a clock with a divisor of 2083, making ~48khz
modular_clock_gen #(2083) audioClock(CLK100MHZ, reset, clk_48khz);
modular_clock_gen #(100) pwmClock(CLK100MHZ, reset, clk_1mhz);
// Count the number on seconds, hours, and minutes elapsed
// If the speed is faster this will pulse more often than once a second
// but will still theoretically be a second of video time
always_ff @(posedge seconds_pulse) begin
always_ff @(posedge seconds_pulse or posedge reset) begin
if (reset) begin
seconds <= 0;
minutes <= 0;
@@ -65,8 +96,49 @@ seconds_display hoursSegment (hours, segments[5], segments[4]);
// Gets rid of button bouncing
playback_controller playbackController (clk_10hz,reset,BTNC, BTNR, speed);
pwm audioOutput(CLK100MHZ, reset, clk_48khz, audio_sample, AUD_PWM);
audio_buffer audioBuffer(
clk_48khz,
reset,
sd_ready,
'0, // stop signal not used right now
speed,
playing,
audio_sample,
audio_interface.receiver
);
`ifdef ROM
rom_sd #("even_flow_16.mem") romSdPlayer(clk_1mhz,reset,sd_ready,audio_interface.driver);
assign {SD_RESET,SD_DAT,SD_CMD,SD_SCK} = 'z;
`else
// Power the sd slot
assign SD_RESET = 0;
// We don't use more than one dat line
assign SD_DAT[3:1] = 'z;
logic clk_100khz;
logic clk_25mhz;
// We can clock this at around 200khz before things start breaking
// Even at 200khz sometimes things break
modular_clock_gen #(1000) slowSdClock(CLK100MHZ, reset, clk_100khz);
// Try clocking this slower than max speed
// To see if that makes it actually work
//
// NOTE: It did not make it work
modular_clock_gen #(1000) fastSdClock(CLK100MHZ, reset, clk_25mhz);
sd_controller realSdPlayer(
clk_100khz,
clk_25mhz,
CLK100MHZ,
reset,
SD_DAT[0],
SD_CMD,
sd_ready,
SD_SCK,
audio_interface.driver
);
`endif
endmodule
design/playback_controller.sv
+2 -1
View File
@@ -9,6 +9,8 @@
*
* */
//VERILATOR define used here because verilator needs it to find the package
//while vivado is smart enough not to.
`ifdef VERILATOR
`include "sdvd_defs.sv"
`endif
@@ -35,7 +37,6 @@ state_t current, next;
wire play_pulse,ff_pulse;
// NOTE: These might need to be hooked to an even lower clock? Not sure
debouncer playDebouncer (clk,reset,play,play_pulse);
debouncer ffDebouncer (clk,reset,ff,ff_pulse);
design/sd/crc_gen.sv
+47
View File
@@ -0,0 +1,47 @@
/***
* crc_gen.sv - paramerizable sequential crc generator. This could probably be
* combinational logic too (but it would be way slower)
*
* @author: Waylon Cude, Dilanthi Prentice
* @date: 6/12/2025
*
* */
module crc_gen #(
parameter CRCBITS=7,
parameter COMMANDLEN=40,
parameter POLYNOMIAL='h89
) (
input clk,
input reset,
input start,
input [COMMANDLEN-1:0] num,
output logic ready,
output logic [CRCBITS-1:0] crc
);
logic [$clog2(COMMANDLEN):0] counter;
logic [COMMANDLEN+CRCBITS-1:0] div_reg;
always_ff @(posedge clk) begin
if (reset) begin
counter <= 0;
crc <= 0;
end
else if (start) begin
counter <= COMMANDLEN;
div_reg <= {num, {CRCBITS{1'b0}}};
ready <= 0;
end
else if (counter != 0) begin
if (div_reg[counter+CRCBITS-1] == 1) begin
div_reg <= div_reg ^ (POLYNOMIAL << (counter-1));
end
counter <= counter - 1;
end
else begin
ready <= 1;
crc <= div_reg[CRCBITS-1:0];
end
end
endmodule
design/sd/read_command.sv
+138
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@@ -0,0 +1,138 @@
/****
* read_command.sv - reads the sd command line and listens for sd command
* responses.
*
* @author: Waylon Cude, Dilanthi Prentice
* @date: 6/12/2025
*
* **/
module read_command(
input logic clk,
input logic reset,
input logic listen,
// 8 types of responses??? so hard to tell
input logic[2:0] response_type,
input logic sd_cmd,
output logic received,
// This has to be large enough to capture each possible response
output logic [135:0] out_data
);
enum logic [2:0] {IDLE,START,LISTEN,RECEIVING,DONE} state, next_state;
// This should be large enough to capture the largest 136-bit response
logic [$clog2(136):0] counter;
logic [135:0] data_reg;
logic received_reg;
logic [2:0] response_type_reg;
// recevied was set a cycle before the data was actually ready
// and if it's just a register it holds for too long
// use both for maximum reactivity
assign received = received_reg && !listen;
always_comb begin
case (state)
IDLE:
if (listen)
next_state=START;
else
next_state=IDLE;
START:
if (sd_cmd == 0)
next_state=RECEIVING;
else
next_state=LISTEN;
LISTEN:
// check for the start bit
if (sd_cmd == 0)
next_state=RECEIVING;
else
next_state=LISTEN;
RECEIVING:
if (counter == 0)
next_state=DONE;
else
next_state=RECEIVING;
DONE:
if (listen)
next_state=START;
else
next_state=DONE;
default:
next_state=IDLE;
endcase
end
always_ff @(posedge clk) begin
case (state)
IDLE:
begin
// This defaulted to 1 ... oops
received_reg <= 0;
out_data <= 0;
if (listen)
response_type_reg <= response_type;
end
START:
begin
received_reg <= 0;
// off-by-one/cycle timing issues accumulated to a counter offset
// of 3.
// 3 in simulation, 2 in reality????
counter <= get_bits(response_type_reg) - 2;
data_reg <= 0;
end
LISTEN:
// This is kinda a hack
// I don't fully understand why the receiving state misses two
// whole bits, I get why it misses the first but not the second...
data_reg[0] <= sd_cmd;
RECEIVING:
begin
counter <= counter - 1;
data_reg <= {data_reg[134:0],sd_cmd};
end
DONE:
begin
out_data <= data_reg;
received_reg <= 1;
if (listen) begin
received_reg <= 0;
response_type_reg <= response_type;
end
end
default: ;
endcase
end
always_ff @(posedge clk) begin
if (reset)
state<=IDLE;
else
state<=next_state;
end
function automatic logic [$clog2(136):0] get_bits(logic [2:0] response);
case (response)
// Response 2 is extra long
2:
return 136;
// Most responses are 48 bits
default:
return 48;
endcase
endfunction
endmodule
design/sd/read_data.sv
+71
View File
@@ -0,0 +1,71 @@
/***
* read_data.sv - whenever we receive a data block, start spitting bytes out
* into the audio buffer block ram. This could be clocked at
* 25MHz default speed clock, or it could swtich over like the
* writer has to.
* @author: Waylon Cude, Dilanthi Prentice
* @date: 6/12/2025
*
***/
module read_data(
input clk,
input reset,
input sd_data,
(* MARK_DEBUG = "TRUE" *)
audio_buffer_interface.driver buffer
);
// Block data is a start bit, 512 bytes sent msb first, then a CRC16 and end
// bit.
// NOTE: This doesn't check which side of the buffer the audio player is
// reading from, so theoretically it could overwrite audio that's being
// played. However, as long as the sd card controller doesn't request extra
// blocks this shouldn't be an issue
localparam BLOCK_SIZE=512*8+16+2;
logic [$clog2(BLOCK_SIZE):0] counter;
logic [7:0] byte_shift;
logic [3:0] byte_counter;
assign buffer.clka = clk;
always_ff @(posedge clk) begin
if (reset) begin
buffer.ena <= 0;
buffer.addra <= '1;
buffer.dina <= 0;
end
else begin
// We ignore the lower 17 bits of the block
if (counter > 16) begin
counter <= counter - 1;
byte_shift <= {byte_shift[6:0],sd_data};
byte_counter <= byte_counter - 1;
// Store received byte in audio buffer and reset counter
if (byte_counter == 0) begin
byte_counter <= 7;
buffer.dina <= byte_shift;//{byte_shift[6:0],sd_data};
buffer.ena <= 1;
end
// Turn the enable signal off so we don't accidentally write
// anything weird
if (byte_counter == 4) begin
buffer.ena <= 0;
buffer.addra <= buffer.addra + 1;
end
end
else if (counter != 0)
counter<=counter-1;
else if (sd_data == 0) begin
counter <= BLOCK_SIZE-1;
byte_counter <= 8;
end
end
end
endmodule
design/sd/rom_sd.sv
+143 -74
View File
@@ -1,59 +1,30 @@
// A dummy sdcard module for testing the audio port
module sd(
/****
* rom_sd.sv - reads audio data off a rom and feeds it to the audio buffer
*
* @author: Dilanthi Prentice, Waylon Cude
* @date: 6/12/25
*
* **/
module rom_sd(
input logic clk,
input logic reset,
output logic ready,
audio_buffer_interface.driver audio_buffer
audio_buffer_interface.driver buffer
);
parameter MEM_FILE = "roundabout.mem";
typedef enum logic [3:0]{
RESET, DELAY1, DELAY2, DELAY3, WRITEBUF, ENDWRITE1, ENDWRITE2, ENDWRITE3, WAIT
} state_t;
state_t current, next;
// First we write 2048B into the memory buffer, then signal to play it and
// wait for half signal to avoid overwriting memory
logic initializing;
logic [16:0] rom_address;
logic [18:0] rom_addr;
logic [7:0] rom_data;
logic rom_enable;
// Keep track of pipeline delay so we don't write garbage into the buffer
logic delay;
// Keep track of if we are caught up to the buffer or not
logic waiting;
//TODO: This probably could be an assign, not sure
assign ready = '1;
always_ff @(posedge clk) begin
if (reset) begin
delay <= 1;
rom_address <= 0;
initializing <= 1;
audio_buffer.addra <= 0;
audio_buffer.ena <= 0;
end
else if (initializing) begin
rom_enable <= 1;
case (delay)
1: delay <= 0;
0: begin
rom_address <= 1;
delay <= 0;
initializing <= 0;
end
endcase
end
else begin
if (!waiting) begin
audio_buffer.ena <= 1;
audio_buffer.dina <= rom_data;
audio_buffer.addra <= audio_buffer.addra + 1;
end
end
end
logic buffer_half;
// xpm_memory_sprom: Single Port ROM
@@ -62,42 +33,140 @@ end
// The ROM has 17 address bits and 8 data bits to store 128KiB, more than
// enough for one second of 48khz audio
xpm_memory_sprom #(
.ADDR_WIDTH_A(17), // DECIMAL
.AUTO_SLEEP_TIME(0), // DECIMAL
.CASCADE_HEIGHT(0), // DECIMAL
.ECC_BIT_RANGE("7:0"), // String
.ECC_MODE("no_ecc"), // String
.ECC_TYPE("none"), // String
.IGNORE_INIT_SYNTH(0), // DECIMAL
.MEMORY_INIT_FILE("roundabout.mem"), // String
.MEMORY_INIT_PARAM("0"), // String
.MEMORY_OPTIMIZATION("true"), // String
.MEMORY_PRIMITIVE("auto"), // String
.MEMORY_SIZE(131072*8), // DECIMAL
.MESSAGE_CONTROL(0), // DECIMAL
.RAM_DECOMP("auto"), // String
.READ_DATA_WIDTH_A(8), // DECIMAL
.READ_LATENCY_A(2), // DECIMAL
.READ_RESET_VALUE_A("0"), // String
.RST_MODE_A("SYNC"), // String
.SIM_ASSERT_CHK(0), // DECIMAL; 0=disable simulation messages, 1=enable simulation messages
.USE_MEM_INIT(1), // DECIMAL
.USE_MEM_INIT_MMI(0), // DECIMAL
.WAKEUP_TIME("disable_sleep") // String
.ADDR_WIDTH_A(19), // DECIMAL
.AUTO_SLEEP_TIME(0), // DECIMAL
.CASCADE_HEIGHT(0), // DECIMAL
.ECC_BIT_RANGE("7:0"), // String
.ECC_MODE("no_ecc"), // String
.ECC_TYPE("none"), // String
.IGNORE_INIT_SYNTH(0), // DECIMAL
.MEMORY_INIT_FILE(MEM_FILE), // String
.MEMORY_INIT_PARAM(""), // String
.MEMORY_OPTIMIZATION("true"), // String
.MEMORY_PRIMITIVE("auto"), // String
.MEMORY_SIZE((1<<19)*8), // DECIMAL
.MESSAGE_CONTROL(0), // DECIMAL
.RAM_DECOMP("auto"), // String
.READ_DATA_WIDTH_A(8), // DECIMAL
.READ_LATENCY_A(2), // DECIMAL
.READ_RESET_VALUE_A("0"), // String
.RST_MODE_A("SYNC"), // String
.SIM_ASSERT_CHK(0), // DECIMAL; 0=disable simulation messages, 1=enable simulation messages
.USE_MEM_INIT(1), // DECIMAL
.USE_MEM_INIT_MMI(0), // DECIMAL
.WAKEUP_TIME("disable_sleep") // String
)
xpm_memory_sprom_inst (
.douta(rom_data), // READ_DATA_WIDTH_A-bit output: Data output for port A read operations.
.addra(rom_address), // ADDR_WIDTH_A-bit input: Address for port A read operations.
.clka(clk), // 1-bit input: Clock signal for port A.
.ena(rom_enable), // 1-bit input: Memory enable signal for port A. Must be high on clock
.douta(rom_data), // READ_DATA_WIDTH_A-bit output: Data output for port A read operations.
.addra(rom_addr), // ADDR_WIDTH_A-bit input: Address for port A read operations.
.clka(clk), // 1-bit input: Clock signal for port A.
.ena(rom_enable), // 1-bit input: Memory enable signal for port A. Must be high on clock
// cycles when read operations are initiated. Pipelined internally.
.rsta(reset) // 1-bit input: Reset signal for the final port A output register stage.
.rsta(reset), // 1-bit input: Reset signal for the final port A output register stage.
// Synchronously resets output port douta to the value specified by
// parameter READ_RESET_VALUE_A.
);
// These are required I think? The ROM gets optimized out without them
.sleep(0),
// Should this have a separate control signal? What happens if it gets
// turned on early like I'm doing now?
.regcea(rom_enable),
.injectsbiterra(0),
.injectdbiterra(0)
);
// End of xpm_memory_sprom_inst instantiation
assign buffer_half = buffer.addra[10];
// The audio buffer memory is clocked at the same speed as this module
assign buffer.clka = clk;
//next state logic
always_comb
begin
case (current)
RESET: if (reset) next = RESET;
else next = DELAY1;
DELAY1: next = DELAY2;
DELAY2: next = DELAY3;
DELAY3: next = WRITEBUF;
WRITEBUF: if (buffer.addra[9:0] < 1020) next = WRITEBUF;
else next = ENDWRITE1;
ENDWRITE1: next = ENDWRITE2;
ENDWRITE2: next = ENDWRITE3;
ENDWRITE3: next = WAIT;
WAIT: if (buffer_half == buffer.address_half) next = WAIT;
else next = DELAY1;
default: next = RESET;
endcase
end
//sequential output logic
always_ff @(posedge clk)
begin
case (current)
RESET: begin
rom_addr <= 0;
rom_enable <= 1;
buffer.addra <= 0;
buffer.ena <= 0;
ready <= 0;
end
DELAY1: rom_addr <= rom_addr + 1;
DELAY2: rom_addr <= rom_addr + 1;
DELAY3: begin
rom_addr <= rom_addr + 1;
buffer.dina <= rom_data;
buffer.ena <= 1;
end
WRITEBUF: begin
buffer.ena <= 1;
buffer.dina <= rom_data;
buffer.addra <= buffer.addra + 1;
rom_addr <= rom_addr + 1;
end
ENDWRITE1, ENDWRITE2:
begin
buffer.ena <= 1;
buffer.dina <= rom_data;
buffer.addra <= buffer.addra + 1;
end
ENDWRITE3: begin
buffer.ena <= 0;
buffer.dina <= rom_data;
buffer.addra <= buffer.addra + 1;
ready <= 1;
end
WAIT: ;
default: begin
rom_addr <= 0;
rom_enable <= 0;
buffer.addra <= 0;
buffer.dina <= 0;
buffer.ena <= 0;
ready <= 0;
end
endcase
end
//sequential clocking block
always_ff @(posedge clk)
begin
if (reset)
current <= RESET;
else
current <= next;
end
endmodule
design/sd/sd_controller.sv
+391
View File
@@ -0,0 +1,391 @@
/****
* sd_controller.sv - Initializes and reads data off an sd card, feeding it
* into the audio buffer
*
* @author: Waylon Cude, Dilanthi Prentice
* @date: 6/12/25
*
* **/
module sd_controller(
(* MARK_DEBUG = "TRUE" *)
input logic slow_clk,
(* MARK_DEBUG = "TRUE" *)
input logic fast_clk,
input logic crc_clk,
input logic reset,
(* MARK_DEBUG = "TRUE" *)
input logic sd_data,
inout logic sd_cmd,
output logic ready,
output wire clk,
audio_buffer_interface.driver buffer
);
// NOTE: this gets encoded as one-hot, even if in here I set it as a logic[5:0]
(* MARK_DEBUG = "TRUE" *)
enum logic [5:0] {
INIT,WAIT,SEND_CMD0,WAIT_CMD0,DELAY_CMD0, // last 4
SEND_CMD8,WAIT_CMD8,LISTEN_RESPONSE_CMD8,WAIT_RESPONSE_CMD8, // last 8
SEND_CMD55,WAIT_CMD55,LISTEN_RESPONSE_CMD55,WAIT_RESPONSE_CMD55, // last 12
SEND_ACMD41,WAIT_ACMD41,LISTEN_RESPONSE_ACMD41,WAIT_RESPONSE_ACMD41,ACMD41_DELAY, //17
SEND_CMD2,WAIT_CMD2,LISTEN_RESPONSE_CMD2,WAIT_RESPONSE_CMD2, //21
SEND_CMD3,WAIT_CMD3,LISTEN_RESPONSE_CMD3,WAIT_RESPONSE_CMD3, //25
SEND_CMD7,WAIT_CMD7,LISTEN_RESPONSE_CMD7,WAIT_RESPONSE_CMD7, //29
READY_TO_TRANSMIT,
TRANSMIT,WAIT_TRANSMIT,WAIT_END,FINISH_TRANSMIT,
TRANSMIT2,WAIT_TRANSMIT2,WAIT_END2,FINISH_TRANSMIT2,
WAIT_FOR_BUFFER
} state, next_state;
(* MARK_DEBUG = "TRUE" *)
logic fast_clk_enable;
assign clk = fast_clk_enable ? fast_clk : slow_clk;
logic [$clog2(4114):0] counter;
logic sd_buffer_half;
logic [31:0] address;
(* MARK_DEBUG = "TRUE" *)
logic send_command_start;//, send_command_start_fast;
(* MARK_DEBUG = "TRUE" *)
logic [5:0] cmd;
(* MARK_DEBUG = "TRUE" *)
logic [31:0] arg;
(* MARK_DEBUG = "TRUE" *)
wire send_command_ready;//, send_command_ready_fast;
(* MARK_DEBUG = "TRUE" *)
logic stored_sd_cmd;
// This needs to swap speeds
send_command slowSender(
clk,
crc_clk,
reset,
send_command_start,
cmd,
arg,
send_command_ready,
sd_cmd);
//send_command fastSender(
// fast_clk,
// crc_clk,
// reset,
// send_command_start_fast,
// cmd,
// arg,
// send_command_ready_fast,
// sd_cmd);
(* MARK_DEBUG = "TRUE" *)
logic read_command_listen;
logic [2:0] response_type;
(* MARK_DEBUG = "TRUE" *)
wire read_command_received;
wire [135:0] out_data;
// Hopefully this doesn't get optimized out...
(* MARK_DEBUG = "TRUE" *)
logic [47:0] received_data;
assign received_data = out_data[47:0];
// This doesn't need to swap speeds as we ignore responses to CMD17
read_command slowReader(
slow_clk,
reset,
read_command_listen,
response_type,
sd_cmd,
read_command_received,
out_data
);
// The data line is only ever used at fast_clk speeds
read_data dataHandler(
fast_clk,
reset,
sd_data,
buffer
);
//always_ff @(posedge crc_clk) begin
// stored_sd_cmd <= sd_cmd;
//end
// Next state logic
always_comb begin
case (state)
INIT: next_state=WAIT;
WAIT:
if (counter==0)
next_state=SEND_CMD0;
else
next_state=WAIT;
SEND_CMD0:
next_state=WAIT_CMD0;
WAIT_CMD0:
if (send_command_ready)
next_state=DELAY_CMD0;
else
next_state=WAIT_CMD0;
DELAY_CMD0:
if (counter == 0)
next_state=SEND_CMD8;
else
next_state=DELAY_CMD0;
// These state transitions are all very similar, this probably could
// be a macro
SEND_CMD8:
next_state=WAIT_CMD8;
WAIT_CMD8:
if (send_command_ready)
next_state=LISTEN_RESPONSE_CMD8;
else
next_state=WAIT_CMD8;
LISTEN_RESPONSE_CMD8:
next_state=WAIT_RESPONSE_CMD8;
WAIT_RESPONSE_CMD8:
if (read_command_received)
next_state=SEND_CMD55;
else
next_state=WAIT_RESPONSE_CMD8;
SEND_CMD2:
next_state=WAIT_CMD2;
WAIT_CMD2:
if (send_command_ready)
next_state=LISTEN_RESPONSE_CMD2;
else
next_state=WAIT_CMD2;
LISTEN_RESPONSE_CMD2:
next_state=WAIT_RESPONSE_CMD2;
WAIT_RESPONSE_CMD2:
if (read_command_received)
next_state=SEND_CMD3;
else
next_state=WAIT_RESPONSE_CMD2;
SEND_CMD3:
next_state=WAIT_CMD3;
WAIT_CMD3:
if (send_command_ready)
next_state=LISTEN_RESPONSE_CMD3;
else
next_state=WAIT_CMD3;
LISTEN_RESPONSE_CMD3:
next_state=WAIT_RESPONSE_CMD3;
WAIT_RESPONSE_CMD3:
if (read_command_received)
next_state=SEND_CMD7;
else
next_state=WAIT_RESPONSE_CMD3;
SEND_CMD7:
next_state=WAIT_CMD7;
WAIT_CMD7:
if (send_command_ready)
next_state=LISTEN_RESPONSE_CMD7;
else
next_state=WAIT_CMD7;
LISTEN_RESPONSE_CMD7:
next_state=WAIT_RESPONSE_CMD7;
WAIT_RESPONSE_CMD7:
if (read_command_received)
next_state=READY_TO_TRANSMIT;
else
next_state=WAIT_RESPONSE_CMD7;
SEND_CMD55:
next_state=WAIT_CMD55;
WAIT_CMD55:
if (send_command_ready)
next_state=LISTEN_RESPONSE_CMD55;
else
next_state=WAIT_CMD55;
LISTEN_RESPONSE_CMD55:
next_state=WAIT_RESPONSE_CMD55;
WAIT_RESPONSE_CMD55:
if (read_command_received)
next_state=SEND_ACMD41;
else
next_state=WAIT_RESPONSE_CMD55;
SEND_ACMD41:
next_state=WAIT_ACMD41;
WAIT_ACMD41:
if (send_command_ready)
next_state=LISTEN_RESPONSE_ACMD41;
else
next_state=WAIT_ACMD41;
LISTEN_RESPONSE_ACMD41:
next_state=WAIT_RESPONSE_ACMD41;
WAIT_RESPONSE_ACMD41:
if (read_command_received && !out_data[39])
next_state=ACMD41_DELAY;
else if (read_command_received && out_data[39])
next_state=SEND_CMD2;
else
next_state=WAIT_RESPONSE_ACMD41;
ACMD41_DELAY:
if (counter == 0)
next_state=SEND_CMD55;
else
next_state=ACMD41_DELAY;
READY_TO_TRANSMIT:
next_state=TRANSMIT;
TRANSMIT:
next_state=WAIT_TRANSMIT;
WAIT_TRANSMIT:
if (sd_data==0)
next_state=WAIT_END;
else
next_state=WAIT_TRANSMIT;
WAIT_END:
if (counter==0)
next_state=FINISH_TRANSMIT;
else
next_state=WAIT_END;
FINISH_TRANSMIT:
next_state=TRANSMIT2;
TRANSMIT2:
next_state=WAIT_TRANSMIT2;
WAIT_TRANSMIT2:
if (sd_data==0)
next_state=WAIT_END2;
else
next_state=WAIT_TRANSMIT2;
WAIT_END2:
if (counter==0)
next_state=FINISH_TRANSMIT2;
else
next_state=WAIT_END2;
FINISH_TRANSMIT2:
next_state=WAIT_FOR_BUFFER;
WAIT_FOR_BUFFER:
if (sd_buffer_half==buffer.address_half)
next_state=WAIT_FOR_BUFFER;
else
next_state=TRANSMIT;
default:
next_state=INIT;
endcase
end
// This could mostly swap speeds ... however detecting the data line going low
// would not work
always_ff @(posedge clk) begin
stored_sd_cmd <= sd_cmd;
// Transition states
if (reset)
state <= INIT;
else
state <= next_state;
// Sequential outputs/logic
case (state)
INIT: begin
counter <= 80;
fast_clk_enable <= 0;
end
SEND_CMD0: begin
cmd<=0;
arg<=0;
send_command_start <= 1;
end
WAIT_CMD0: begin
counter<=20;
send_command_start<=0;
end
SEND_CMD8: begin
cmd <=8;
arg <='h1AA;
send_command_start <=1;
end
LISTEN_RESPONSE_CMD8: begin
response_type <= 7;
read_command_listen <= 1;
end
SEND_CMD55: begin
cmd <= 55;
arg <= 0;
send_command_start <=1;
end
LISTEN_RESPONSE_CMD55: begin
response_type <= 1;
read_command_listen <= 1;
end
SEND_ACMD41: begin
cmd <= 41;
arg <= 'h40100000;
send_command_start <=1;
end
LISTEN_RESPONSE_ACMD41: begin
response_type <= 3;
read_command_listen <= 1;
end
WAIT_RESPONSE_ACMD41: begin
read_command_listen<=0;
counter<=100;
end
SEND_CMD2: begin
cmd <= 2;
arg <= 0;
send_command_start <=1;
end
LISTEN_RESPONSE_CMD2: begin
response_type <= 2;
read_command_listen <= 1;
end
SEND_CMD3: begin
cmd <= 3;
arg <= 0;
send_command_start <=1;
end
LISTEN_RESPONSE_CMD3: begin
response_type <= 6;
read_command_listen <= 1;
end
SEND_CMD7: begin
cmd <= 7;
arg <= {out_data[39:24],16'h0000};
send_command_start <=1;
end
LISTEN_RESPONSE_CMD7: begin
response_type <= 1;
read_command_listen <= 1;
end
READY_TO_TRANSMIT: begin
fast_clk_enable <= 1;
address <= 0;
sd_buffer_half <= 0;
end
TRANSMIT, TRANSMIT2: begin
cmd <= 17;
arg <= address;
send_command_start <= 1;
end
WAIT_TRANSMIT, WAIT_TRANSMIT2: begin
send_command_start <= 0;
counter <= 411;
end
FINISH_TRANSMIT:
address <= address +1;
FINISH_TRANSMIT2: begin
address <= address +1;
sd_buffer_half <= ~sd_buffer_half;
end
WAIT_FOR_BUFFER:
ready <= 1;
// The logic is simple enough in these to group them
WAIT, DELAY_CMD0, ACMD41_DELAY, WAIT_END, WAIT_END2:
counter <= counter - 1;
WAIT_CMD8,WAIT_CMD55,WAIT_ACMD41,WAIT_CMD2,WAIT_CMD3,WAIT_CMD7:
send_command_start<=0;
WAIT_RESPONSE_CMD8,WAIT_RESPONSE_CMD55,WAIT_RESPONSE_CMD2,WAIT_RESPONSE_CMD3,
WAIT_RESPONSE_CMD7:
read_command_listen<=0;
default: ;
endcase
end
endmodule
design/sd/send_command.sv
+113
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@@ -0,0 +1,113 @@
/***
* send_command.sv - sends sd card commands. It takes in a command and an
* argument and will figure out the necessary crc.
*
* @author: Waylon Cude, Dilanthi Prentice
* @date: 6/12/2025
*
* */
module send_command(
input clk,
// The crc should be clocked way faster than the sender
input crc_clk,
input reset,
input start,
input [5:0] command,
input [31:0] arguments,
output logic ready,
output wire sd_cmd
);
(* MARK_DEBUG = "TRUE" *)
logic [47:0] to_send;
logic crc_start;
wire crc_ready;
logic [6:0] crc;
logic [$clog2(48):0] counter;
(* MARK_DEBUG = "TRUE" *)
logic send_sd_cmd;
enum logic [2:0] {READY, SEND_CRC, DELAY, WAIT_CRC, SEND_DATA} cur_state, next_state;
// We theoretically could speed up sd card initialization by hardcoding the
// CRCs for it, but wasting an extra couple of cycles at 400khz shouldn't
// really matter
crc_gen crcGen(crc_clk,reset,crc_start,to_send[47-:40],crc_ready,crc);
// State transitions
always_comb begin
case (cur_state)
READY:
if (start)
next_state = SEND_CRC;
else
next_state = READY;
SEND_CRC:
next_state = DELAY;
DELAY:
next_state = WAIT_CRC;
WAIT_CRC:
if (crc_ready)
next_state = SEND_DATA;
else
next_state = WAIT_CRC;
SEND_DATA:
if (counter != 1)
next_state = SEND_DATA;
else
next_state = READY;
default:
next_state = READY;
endcase
end
assign sd_cmd = send_sd_cmd ? 'z : 0;
// BUG SPOTTED: Too slow, make the output more reactive
// Added start input check to achieve this
assign ready = (cur_state == READY && !start);
// Sequential logic
always_ff @(posedge clk) begin
// Default to high-z
send_sd_cmd <= 1;
case (cur_state)
READY:
begin
counter <= 48;
end
SEND_CRC:
begin
to_send <= {1'b0, 1'b1, command, arguments, 8'b1};
crc_start <= 1;
end
DELAY:
crc_start <= 0;
WAIT_CRC:
to_send[7:1] <= crc;
SEND_DATA:
begin
counter <= counter - 1;
send_sd_cmd <= to_send[counter-1];
end
default: ;
endcase
end
always_ff @(posedge clk) begin
if (reset) begin
cur_state <= READY;
end
else begin
cur_state <= next_state;
end
end
endmodule
design/segment_display/display_anode_driver.sv
+17 -1
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@@ -1,15 +1,31 @@
// NOTE: This expects to be driven with a 100khz clock
/***
* display_anode_driver.sv - Turns on a single anode of a single digit at a time,
* rapidly rotating through all of them, generating
* a solid-looking display even though only one digit
* is on at a time.
*
* @author: Waylon Cude, Dilanthi Prentice
* @date: 6-12-2025
*
* */
// NOTE: This expects to be driven with a 100khz clock but can be altered in
// the nexys_a7_top.sv file.
module display_anode_driver(
input logic clk,
input logic reset,
output logic [7:0] AN,
output logic [2:0] mux_select);
// Initialize this once, it can be free-running after
logic started;
// This is just a shift register that drives each anode individually
always_ff @(posedge clk) begin
if (reset) begin
AN <= '1 - 1;
mux_select <= 0;
started <= 1;
end
else begin
AN <= {AN[6:0], AN[7]};
design/segment_display/display_converter.sv
+4 -2
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@@ -1,12 +1,12 @@
/**
* display_converter.sv - decodes a 5 bit digit input into its seven segment
* display equivalent using a lookup table. Display can
* do 0 - 9, A - F, individual segmentsm and special
* do 0 - 9, A - F, individual segments and special
* characters.
*
* @author: Dilanthi Prentice, Waylon Cude
* @date: 6/12/25
*
*
****/
module display_converter(
input logic [4:0] digit,
@@ -16,6 +16,7 @@ module display_converter(
localparam ROM_SIZE=32;
//ROM lookup table for seven segment display
//blanks are unused space we could add characters to.
localparam logic [6:0] segment_rom [0:ROM_SIZE-1] = '{
7'b1111110, //0
7'b0000110, //1
@@ -54,6 +55,7 @@ localparam logic [6:0] segment_rom [0:ROM_SIZE-1] = '{
7'b0000000, //blank
7'b0000000 //blank
};
//use digit input to index segment_rom lookup table.
assign segment = segment_rom[digit];
design/segment_display/seconds_display.sv
+6 -3
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@@ -1,10 +1,13 @@
/***
* seconds_display.sv - convert a seconds counter to a seven segement display.
* sixty_display.sv - converts a binary digit from zero to fifty-nine to its
* ones and tens digits and then gets the seven segment
* display equivalents of them.
*
* @author: Dilanthi Prentice, Waylon Cude
* @date: 6/12/25
*
*/
module seconds_display
(
input [$clog2(60)-1:0] seconds,
@@ -15,14 +18,14 @@ module seconds_display
logic [4:0] ones_digit;
logic [4:0] tens_digit;
//convert digit to ones and tens places
always_comb
begin
ones_digit = seconds % 10;
tens_digit = seconds / 10;
end
//instantiate the display_converter to convert the counter
//to a seven segment display number
//convert both ones and tens place digits to their seven segement equivalent
display_converter ones (ones_digit, display_ones);
display_converter tens (tens_digit, display_tens);
doc/bugs.md
+35
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@@ -12,3 +12,38 @@
### Low Freq Clock Gen
- Was initially trying to do modulo at max clock speed, failing timing
### sd_rom
- ROM was getting totally optimized out and was doing nothing in simulation, and
didn't show up in synthesized design
- Timing issues, ROM was one cycle slower than expected, latching takes an extra
cycle too, had to rework state machines, there are a bonus 2 delay states when
starting and ending writes
### PWM
- major design problems
- clocked too slow
- initial goal of 16-bit audio isn't feasible because 100MHz isn't fast enough
to pwm based on a 16-bit counter, would give a sample rate of 1.5khz
### command_sender
- output ready signal was delay a cycle because it was set by sequential logic,
detected in testing, changed it to a combinational output for 1 cycle speedup
- counter was being set in multiple blocks, caught by synthesis
- output phase too long, caught in hw
### read_command
- response_type was not getting correctly stored/set, breaking the module
entirely. Detected in testbench
- off-by-one error detected in the counter
### read_data
- audio buffer address to write to was never changing, caught in simulation
- some off-by-one errors in the byte shifting were found and corrected
### modular_clock
- stopped ticking on reset
- meant that every module using these clocks w/ a synchronous reset would get
stuck and never reset
- found during hw debugging
doc/rom_sd.gv
+9 -9
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@@ -1,23 +1,23 @@
digraph rom_sd {
Reset [shape = doublecircle, label = "RESET\nbuffer_half = 0\nrom_address = 0\nrom_enable = 1\nbuf.addr=0\nready=0"];
Reset [shape = doublecircle, label = "RESET\nbuffer_half = 0\nrom_addr = 0\nrom_enable = 1\nbuffer.addra=0\nready=0"];
node [shape = circle];
Delay [label="DELAY\nrom_address++"];
WriteBuf [label="WRITEBUF\nbuf.ena=1\nbuf.data=rom_data\nbuf.addr++\nrom_addr++"];
EndWrite [label="ENDWRITE\nbuf.ena=1\nbuf.data=rom_data\nbuf.addr++\nready=1"];
Wait [label = "WAIT\nbuf.ena=0"];
Delay [label="DELAY\nrom_addr++"];
WriteBuf [label="WRITEBUF\nbuffer.ena=1\nbuffer.dina=rom_data\nbuffer.addra++\nrom_addr++"];
EndWrite [label="ENDWRITE\nbuffer.ena=1\nbuffer.data=rom_data\nbuffer.addra++\nready=1"];
Wait [label = "WAIT\nbuffer.ena=0"];
Reset -> Reset [label="reset"];
Reset -> Delay [label="!reset"];
Delay -> WriteBuf;
WriteBuf -> WriteBuf [label="buf.addr < 1023"]
WriteBuf -> EndWrite [label="buf.addr == 1023"]
WriteBuf -> WriteBuf [label="buffer.addra < 1023"]
WriteBuf -> EndWrite [label="buffer.addra == 1023"]
EndWrite -> Wait;
Wait -> Wait [label = "buffer_half == buf.address_half"]
Wait -> Delay [label = "buffer_half != buf.address_half"]
Wait -> Wait [label = "buffer_half == buffer.address_half"]
Wait -> Delay [label = "buffer_half != buffer.address_half"]
}
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doc/sd_controller.gv
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digraph sd_controller {
// Rough steps
INIT [shape=doublecircle, label="INIT\ncounter=80\nclk_source=slow"];
node [shape=ellipse]
// Tick at slow speed (100khz? 400khz?) for 80 ticks
WAIT [label="WAIT\ncounter--"];
// Send CMD0 with arg 0
SEND_CMD0 [label="SEND_CMD0\ncmd=0\narg=0\nstart=1"];
// There is no response to CMD0, so tick for 20 more cycles then send CMD8
WAIT_CMD0 [label="WAIT_CMD0\ncounter=20\nstart=0"];
DELAY_CMD0 [label="DELAY_CMD0\ncounter--"];
// Send CMD8
SEND_CMD8 [label="SEND_CMD8\ncmd=8\narg=0x1AA\nstart=1"];
WAIT_CMD8 [label="WAIT_CMD8\nstart=0"];
LISTEN_RESPONSE_CMD8 [label="LISTEN_RESPONSE_CMD8\nresponse_type=7\nread_command.listen=1"]
WAIT_RESPONSE_CMD8 [label="WAIT_RESPONSE_CMD8\nread_command.listen=0"];
INIT -> WAIT;
WAIT -> WAIT [label="counter!=0"];
WAIT -> SEND_CMD0 [label="counter==0"];
SEND_CMD0 -> WAIT_CMD0;
WAIT_CMD0 -> DELAY_CMD0 [label="send_command.ready"];
WAIT_CMD0 -> WAIT_CMD0 [label="!send_command.ready"]
DELAY_CMD0 -> DELAY_CMD0 [label="counter!=0"];
DELAY_CMD0 -> SEND_CMD8 [label="counter==0"]
SEND_CMD8 -> WAIT_CMD8;
WAIT_CMD8 -> WAIT_CMD8 [label="!send_command.ready"]
WAIT_CMD8 -> LISTEN_RESPONSE_CMD8 [label="send_command.ready"]
LISTEN_RESPONSE_CMD8 -> WAIT_RESPONSE_CMD8;
WAIT_RESPONSE_CMD8 -> WAIT_RESPONSE_CMD8 [label="!read_command.received"]
// Send CMD55+CMD41 with arg 40100000 until card is ready
SEND_CMD55 [label="SEND_CMD55\ncmd=55\narg=0\nstart=1"];
WAIT_CMD55 [label="WAIT_CMD55\nstart=0"];
LISTEN_RESPONSE_CMD55 [label="LISTEN_RESPONSE_CMD55\nresponse_type=1\nread_command.listen=1"]
WAIT_RESPONSE_CMD55 [label="WAIT_RESPONSE_CMD55\nread_command.listen=0"]
SEND_ACMD41 [label="SEND_ACMD41\ncmd=41\narg=0x40100000\nstart=1"];
WAIT_ACMD41 [label="WAIT_ACMD41\nstart=0"];
LISTEN_RESPONSE_ACMD41 [label="LISTEN_RESPONSE_ACMD41\nresponse_type=3\nread_command.listen=1"]
WAIT_RESPONSE_ACMD41 [label="WAIT_RESPONSE_ACMD41\nread_command.listen=0\ncounter=100"];
// Delay trying this again
ACMD41_DELAY [label="ACMD41_DELAY\ncounter--"];
// Card is ready when bit31 is high
WAIT_RESPONSE_CMD8 -> SEND_CMD55 [label="read_command.received"]
SEND_CMD55 -> WAIT_CMD55;
WAIT_CMD55 -> WAIT_CMD55 [label="!send_command.ready"];
WAIT_CMD55 -> LISTEN_RESPONSE_CMD55 [label="send_command.ready"];
LISTEN_RESPONSE_CMD55 -> WAIT_RESPONSE_CMD55;
WAIT_RESPONSE_CMD55 -> WAIT_RESPONSE_CMD55 [label="!read_command.received"]
WAIT_RESPONSE_CMD55 -> SEND_ACMD41 [label="read_command.received"]
SEND_ACMD41 -> WAIT_ACMD41
WAIT_ACMD41 -> WAIT_ACMD41 [label="!send_command.ready"]
WAIT_ACMD41 -> LISTEN_RESPONSE_ACMD41[label="send_command.ready"]
LISTEN_RESPONSE_ACMD41 -> WAIT_RESPONSE_ACMD41
WAIT_RESPONSE_ACMD41 -> WAIT_RESPONSE_ACMD41 [label="!read_command.received"]
WAIT_RESPONSE_ACMD41 -> ACMD41_DELAY [label="read_command.received && !out_data[39]"]
ACMD41_DELAY -> ACMD41_DELAY [label="counter!=0"]
ACMD41_DELAY -> SEND_CMD55 [label="counter==0"]
// CMD2 with argument 0, dont need response
SEND_CMD2 [label="SEND_CMD2\ncmd=2\narg=0\nsend_command.start=1"];
WAIT_CMD2 [label="WAIT_CMD2\nsend_command.start=0"];
LISTEN_RESPONSE_CMD2 [label="LISTEN_RESPONSE_CMD2\nresponse_type=2\nread_command.listen=1"];
WAIT_RESPONSE_CMD2 [label="WAIT_RESPONSE_CMD2\nread_command.listen=0"];
WAIT_RESPONSE_ACMD41 -> SEND_CMD2 [label="read_command.received && out_data[39]"]
SEND_CMD2 -> WAIT_CMD2;
WAIT_CMD2 -> WAIT_CMD2 [label="!send_command.ready"]
WAIT_CMD2 -> LISTEN_RESPONSE_CMD2 [label="send_command.ready"]
LISTEN_RESPONSE_CMD2 -> WAIT_RESPONSE_CMD2;
WAIT_RESPONSE_CMD2 -> WAIT_RESPONSE_CMD2 [label="!read_command.received"]
// CMD3 with argument 0 to get RCA
SEND_CMD3 [label="SEND_CMD3\ncmd=3\narg=0\nsend_command.start=1"];
WAIT_CMD3 [label="WAIT_CMD3\nsend_command.start=0"];
LISTEN_RESPONSE_CMD3 [label="LISTEN_RESPONSE_CMD3\nresponse_type=6\nread_command.listen=1"];
WAIT_RESPONSE_CMD3 [label="WAIT_RESPONSE_CMD3\nread_command.listen=0"];
WAIT_RESPONSE_CMD2 -> SEND_CMD3 [label="read_command.received"]
SEND_CMD3 -> WAIT_CMD3
WAIT_CMD3 -> WAIT_CMD3 [label="!send_command.ready"]
WAIT_CMD3 -> LISTEN_RESPONSE_CMD3 [label="send_command.ready"]
LISTEN_RESPONSE_CMD3 -> WAIT_RESPONSE_CMD3;
WAIT_RESPONSE_CMD3 -> WAIT_RESPONSE_CMD3 [label="!read_command.received"]
// CMD7 to select the correct card given the RCA
SEND_CMD7 [label="SEND_CMD7\ncmd=7\narg={out_data[39:24],16'h0000}\nsend_command.start=1"];
WAIT_CMD7 [label="WAIT_CMD7\nsend_command.start=0"];
LISTEN_RESPONSE_CMD7 [label="LISTEN_RESPONSE_CMD7\nresponse_type=1\nread_command.listen=1"];
WAIT_RESPONSE_CMD7 [label="WAIT_RESPONSE_CMD7\nread_command.listen=0"];
WAIT_RESPONSE_CMD3 -> SEND_CMD7[label="read_command.received"]
SEND_CMD7 -> WAIT_CMD7;
WAIT_CMD7 -> WAIT_CMD7 [label="!send_command.ready"]
WAIT_CMD7 -> LISTEN_RESPONSE_CMD7 [label="send_command.ready"]
LISTEN_RESPONSE_CMD7 -> WAIT_RESPONSE_CMD7;
WAIT_RESPONSE_CMD7 -> WAIT_RESPONSE_CMD7 [label="!read_command.ready"]
// Now we can finally read blocks with CMD17
// Swap over to the fast clock
READY_TO_TRANSMIT [label="READY_TO_TRANSMIT\nclk_source=fast\naddress=0\nbuffer_half=0"];
// There are two sets of states because we need to read two blocks at once
TRANSMIT [label="TRANSMIT\ncmd=17\narg=address\nsend_command.start=1"];
WAIT_TRANSMIT [label="WAIT_TRANSMIT\nsend_command.start=0\ncounter=4114"];
WAIT_END [label="WAIT_END\ncounter--"];
FINISH_TRANSMIT [label="FINISH_TRANSMIT\naddress++"]
TRANSMIT2 [label="TRANSMIT2\ncmd=17\narg=address\nsend_command.start=1"];
WAIT_TRANSMIT2 [label="WAIT_TRANSMIT2\nsend_command.start=0\ncounter=4114"];
WAIT_END2 [label="WAIT_END2\ncounter--"];
FINISH_TRANSMIT2 [label="FINISH_TRANSMIT2\naddress++\nsd_buffer_half=!sd_buffer_half"]
// Wait for the buffer to be free, then go back to TRANSMIT
WAIT_FOR_BUFFER [label="WAIT_FOR_BUFFER\nready=1"];
WAIT_RESPONSE_CMD7 -> READY_TO_TRANSMIT [label="read_command.ready"]
READY_TO_TRANSMIT -> TRANSMIT;
TRANSMIT -> WAIT_TRANSMIT;
WAIT_TRANSMIT -> WAIT_TRANSMIT [label="sd_data==1"]
WAIT_TRANSMIT -> WAIT_END [label="sd_data==0"]
WAIT_END -> WAIT_END [label="counter!=0"]
WAIT_END -> FINISH_TRANSMIT [label="counter==0"]
FINISH_TRANSMIT -> TRANSMIT2;
TRANSMIT2 -> WAIT_TRANSMIT2;
WAIT_TRANSMIT2 -> WAIT_TRANSMIT2 [label="sd_data==1"]
WAIT_TRANSMIT2 -> WAIT_END2 [label="sd_data==0"]
WAIT_END2 -> WAIT_END2 [label="counter!=0"]
WAIT_END2 -> FINISH_TRANSMIT2 [label="counter==0"]
FINISH_TRANSMIT2 -> WAIT_FOR_BUFFER;
WAIT_FOR_BUFFER -> WAIT_FOR_BUFFER [label="sd_buffer_half==audio_buffer.address_half"];
WAIT_FOR_BUFFER -> TRANSMIT [label="sd_buffer_half!=audio_buffer.address_half"];
}
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roms/even_flow.raw
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roms/gen_consecutive.py
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for i in range(1,256):
print(hex(i))
for i in range(0,10):
for i in range(0,256):
print(hex(i))
roms/testfile.mem
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verification/audio/pwm_tb.sv
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/*****
* pwm_tb.sv - testbench for the pwm.sv module.
*
* @author: Dilanthi Prentice, Waylon Cude
* @date: 6/12/2025
* */
module pwm_tb;
bit clk, reset;
logic load;
wire pwm_pin;
logic [15:0] sample;
pwm dut (.*);
initial forever #10 clk = ~clk;
initial begin
reset = 1;
@(posedge clk);
@(posedge clk);
reset = 0;
load = 1;
sample = 0;
for (int i=0; i < (1<<16)-1; i++) begin
@(posedge clk) assert (pwm_pin === 0)
else $error("Should be low at %d",i);
end
reset = 0;
load = 1;
sample = '1;
@(posedge clk)
for (int i=0; i < (1<<16)-1; i++) begin
@(posedge clk) assert (pwm_pin === 'z)
else $error("Should be high at %d",i);
end
reset = 0;
load = 1;
// Should be about half on
sample = 1<<15;
@(posedge clk)
for (int i=0; i < (1<<15); i++) begin
@(posedge clk) assert (pwm_pin === 'z)
else $error("Should be high at %d",i);
end
sample = 1<<15;
for (int i = (1 << 15); i < (1<<16)-1; i++) begin
@(posedge clk) assert (pwm_pin === 0)
else $error("Should be low at %d",i);
end
$finish;
end
endmodule
verification/audio/pwn_tb.sv
-6
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@@ -1,6 +0,0 @@
/*****
* pwn_tb.sv - testbench for the pwn.sv module.
*
* @author: Dilanthi Prentice, Waylon Cude
* @date: 6/12/2025
* */
verification/sd/crc_gen_tb.sv
+49
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@@ -0,0 +1,49 @@
module crc_gen_tb;
parameter CRCBITS=7;
parameter COMMANDLEN=40;
parameter POLYNOMIAL='h89;
logic clk, reset, start, ready;
logic [COMMANDLEN-1:0] num;
logic [CRCBITS-1:0] crc;
logic [CRCBITS-1:0] test_cases [logic [COMMANDLEN-1:0]];
crc_gen #(CRCBITS,COMMANDLEN,POLYNOMIAL) dut (.*);
initial begin
clk = 0;
forever #10 clk = ~clk;
end
initial begin
test_cases = '{
'h1234567890: 'h10,
'hBEEFB05535: 'h05,
'h5544992211: 'h17,
'0: '0
};
reset = 1;
start = 0;
repeat (2) @(posedge clk);
reset = 0;
@(posedge clk);
foreach (test_cases[key]) begin
wait (ready);
num = key;
@(posedge clk);
start = 1;
@(posedge clk);
start = 0;
@(posedge clk);
wait(ready);
assert (crc === test_cases[key])
else $error("Invalid crc, found 0x%x but expected 0x%x",crc,test_cases[key]);
end
$finish;
end
endmodule
verification/sd/read_command_tb.sv
+81
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@@ -0,0 +1,81 @@
module read_command_tb;
bit clk;
logic reset;
logic listen;
logic [2:0] response_type;
logic sd_cmd;
wire received;
wire [135:0] out_data;
read_command dut (.*);
initial forever #10 clk = ~clk;
initial begin
$display("Testing read_command module");
sd_cmd = 1;
response_type = 0;
reset = 1;
listen = 0;
repeat (2) @(posedge clk);
reset = 0;
listen = 1;
response_type = 2;
@(posedge clk);
listen = 0;
response_type = 0;
repeat (5) @(posedge clk);
send_byte('h01);
for (int i=0; i<15; i++)
send_byte('hAA);
send_byte('h01);
@(posedge clk);
// NOTE: the received signal takes an extra cycle to propogate because
// it is loaded into a register
@(posedge clk);
#1;
assert (received === 1)
else $error("received signal not high");
assert (out_data === 'h01AAAAAAAAAAAAAAAAAAAAAAAAAAAAAA01)
else $error("out_dat incorrect, found 0x%x but expected 0x01AAAAAAAAAAAAAAAAAAAAAAAAAAAAAA01",out_data);
repeat (7) @(posedge clk);
listen = 1;
response_type = 3;
@(posedge clk);
listen = 0;
response_type = 0;
send_byte('h00);
send_byte('hAB);
send_byte('hCD);
send_byte('hEF);
send_byte('h12);
send_byte('h01);
// Return sd_cmd to inactive state
@(posedge clk) sd_cmd = 1;
@(posedge clk);
#1;
assert (received === 1)
else $error("received signal not high");
assert (out_data === 136'h00ABCDEF1201)
else $error("out_dat incorrect, found %b but expected 0x00ABCDEF1201",out_data);
@(posedge clk);
$finish;
end
task automatic send_byte(logic [7:0] b);
for (int i = 8; i != 0; i--) begin
@(posedge clk) sd_cmd = b[i-1];
end
endtask
endmodule
verification/sd/read_data_tb.sv
+140
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`ifdef VERILATOR
`include "sdvd_defs.sv"
`endif
import sdvd_defs::SPEED;
module read_data_tb;
logic clk, sd_clk, reset;
// Control signals
logic play, stop;
SPEED speed;
// Whether the audio buffer is currently playing
logic playing;
// A 16-bit audio sample to output
logic [15:0] sample;
logic sd_data;
audio_buffer_interface bufferInterface();
logic [10:0] counter;
logic [15:0] test_memory [1023:0];
audio_buffer audioDut(.driver(bufferInterface.receiver), .*);
read_data readerDut(sd_clk,reset,sd_data,bufferInterface.driver);
// The writer's clock should be much faster than the 48khz buffer clock
initial sd_clk = 0;
always #5 sd_clk = ~sd_clk;
// An order of magnitude difference is fine
initial clk = 0;
always #500 clk = ~clk;
// Reader
initial begin
`ifdef DEBUG
$monitor("PLAYING: %b ADDR: 0x%x DATA: 0x%x WILLDELAY: %b",
playing, dut.address, dut.doutb,dut.delay);
`endif
fork
//Reader
begin
play = 0;
stop = 0;
clk = 0;
reset = 0;
speed = 1;
@(posedge clk)
reset = 1;
@(posedge clk)
reset = 0;
play = 1;
@(posedge clk)
assert (playing == 1) else $error("Audio buffer not playing");
// Wait an extra clock cycle because of the blockmem delay
@(posedge clk)
// The most basic test we can do here is an incrementing counter,
// where the stored sample is the same as the address
$display("Running linear test");
for (counter = 0; counter < 1024; counter++) begin
#1
assert ({5'b0, counter} === sample) else
$error("Invalid sample, expected 0x%x but found 0x%x",counter,sample);
@(posedge clk);
end
$display("Running randomized test");
counter = 0;
while(counter < 1024) begin
#1
assert (test_memory[counter[9:0]] === sample) else
$error("Invalid sample, expected 0x%x but found 0x%x at location 0x%x",test_memory[counter[9:0]],sample,counter);
@(posedge clk);
counter++;
end
end
// Writer
begin
for (int i=0; i<1024; i++)
test_memory[i]=$urandom;
// Wait til buffer is done resetting
@(posedge clk);
@(posedge clk);
// linear test
write_linear_sd(0);
write_linear_sd(256);
write_linear_sd(512);
write_linear_sd(256*3);
wait (bufferInterface.address_half==1);
// random test, write to lower half of memory
write_random_sd(0);
write_random_sd(256);
wait (bufferInterface.address_half==0);
// random test, write to upper half of memory
write_random_sd(512);
write_random_sd(256*3);
end
join
$finish;
end
task automatic write_random_sd(int start);
@(posedge sd_clk);
sd_data = 1;
// send start bit
@(posedge sd_clk);
// send 256 data bits
sd_data = 0;
for (int i = 0; i < 256; i++) begin
write_byte(test_memory[start+i][7:0]);
write_byte(test_memory[start+i][15:8]);
end
// Simulate randomized crc bits and stop bit
repeat (16) @(posedge sd_clk) sd_data=$urandom;
@(posedge sd_clk) sd_data=1;
endtask
task automatic write_linear_sd(int start);
@(posedge sd_clk);
sd_data = 1;
// send start bit
@(posedge sd_clk);
// send 256 data bits
sd_data = 0;
for (int i = 0; i < 256; i++) begin
write_byte(start[7:0]);
write_byte(start[15:8]);
start = start+1;
end
// Simulate crc bits and stop bit
repeat (17) @(posedge sd_clk) sd_data=1;
endtask
task automatic write_byte(logic [7:0] b);
for (int i=0; i<8; i++)
@(posedge sd_clk) sd_data=b[7-i];
endtask
endmodule
verification/sd/rom_sd_tb.sv
+155
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@@ -0,0 +1,155 @@
`ifdef VERILATOR
`include "sdvd_defs.sv"
`endif
module rom_sd_tb;
bit clk,reset;
wire ready;
int errors;
logic [10:0] i;
audio_buffer_interface buffer();
rom_sd #("consecutive.mem") dut (clk,reset,ready,buffer.driver);
initial forever #10 clk = ~clk;
initial begin
reset = 1;
buffer.address_half = 0;
@(posedge clk);
reset = 0;
// Audio data should not be flowing yet
#1 assert (buffer.dina == 0)
else begin
errors++;
$error("Data not zero after reset, found 0x%x",buffer.dina);
end
repeat (3) @(posedge clk);
for (i = 0; i < 1024;) begin
@(posedge clk);
#1
assert (buffer.addra === i)
else begin
errors++;
$error("Incorrect address, expected %x found %x",i,buffer.addra);
end
assert (buffer.dina === ((i + 1) % 256))
else begin
errors++;
$error("Incorrect data, expected 0x%x but found 0x%x",i[7:0],buffer.dina);
end
assert (i == 0 || buffer.ena === 1)
else begin
$error("Enable not high");
errors++;
end
assert (buffer.address_half == 0)
else begin
errors++;
$error("Incorrect address half, expected 0 but found %d",buffer.address_half);
end
i = i + 1;
end
// Wait a cycle for the buffer to catch up
@(posedge clk);
// Make sure that we start waiting and that we signal that the buffer
// is ready
#1 assert(buffer.ena === 0)
else begin
errors++;
$error("Buffer did not wait after first full cycle");
end
assert(ready === 1)
else begin
errors++;
$error("Buffer did not signal ready");
end
assert(dut.buffer_half === 1)
else begin
errors++;
$error("Buffer half did not correctly change to 1");
end
// Set the address half high so we can test waiting/catching up to the
// buffer
buffer.address_half = 1;
repeat (100) @(posedge clk);
#1 assert(buffer.ena === 0)
else begin
errors++;
$error("Buffer did not wait after first full cycle");
end
buffer.address_half = 0;
repeat (3) @(posedge clk);
// Check that sending into the upper half of the buffer works as
// expected
while (i != 0) begin
@(posedge clk);
#1
assert (buffer.addra === i)
else begin
errors++;
$error("Incorrect address, expected %x found %x",i,buffer.addra);
end
assert (buffer.dina === ((i + 1) % 256))
else begin
errors++;
$error("Incorrect data, expected 0x%x but found 0x%x",i[7:0],buffer.dina);
end
assert (i == 0 || buffer.ena === 1)
else begin
$error("Enable not high");
errors++;
end
assert (buffer.address_half == 0)
else begin
errors++;
$error("Incorrect address half, expected 0 but found %d",buffer.address_half);
end
i = i + 1;
end
// Wait a cycle for the buffer to catch up
@(posedge clk);
// Make sure that we start waiting
#1 assert(buffer.ena === 0)
else begin
errors++;
$error("Buffer did not wait after second full cycle");
end
assert(ready === 1)
else begin
errors++;
$error("Buffer did not signal ready");
end
assert(dut.buffer_half === 0)
else begin
errors++;
$error("Buffer half did not correctly change to 0");
end
$display("Found %0d errors while testing rom_sd",errors);
$finish;
end
endmodule
verification/sd/sd_controller_tb.sv
+45
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@@ -0,0 +1,45 @@
module sd_controller_tb;
bit slow_clk,fast_clk,crc_clk;
logic reset,sd_data;
wire sd_cmd;
wire ready;
wire clk;
audio_buffer_interface buffer ();
sd_controller dut (.buffer(buffer.driver), .*);
bit sd_write;
assign sd_cmd = sd_write ? 'z : 0;
initial forever #100 slow_clk = ~slow_clk;
initial forever #1 crc_clk = ~crc_clk;
initial forever #10 fast_clk = ~fast_clk;
initial begin
sd_write = 1;
reset = 1;
repeat (2) @(posedge slow_clk);
reset = 0;
repeat (200) @(posedge slow_clk);
send_response();
repeat (100) @(posedge slow_clk);
send_response();
repeat (100) @(posedge slow_clk);
$finish;
end
task automatic send_response();
for(int i=0;i<47;i++)
@(posedge slow_clk) sd_write = 0;
@(posedge slow_clk) sd_write = 1;
endtask
endmodule
verification/sd/send_command_tb.sv
+63
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@@ -0,0 +1,63 @@
module send_command_tb;
bit clk;
// The crc should be clocked way faster than the sender
bit crc_clk;
logic reset;
logic start;
logic [5:0] command;
logic [31:0] arguments;
wire ready;
wire sd_cmd;
logic [47:0] fill_me;
int counter;
logic sd_cmd_real;
assign sd_cmd_real = (sd_cmd === 'z) ? 1 : 0;
send_command dut(.*);
initial forever #100 clk = ~clk;
initial forever #20 crc_clk = ~crc_clk;
initial begin
reset = 1;
start = 0;
repeat (2) @(posedge clk);
reset = 0;
@(posedge clk);
start = 1;
command = 8;
arguments = 'h1AA;
counter = 48;
@(posedge clk);
// Try receiving the CMD8
while (counter != 0) begin
// Check for the start bit, or that we're receiving a message
if (sd_cmd_real != 1 || counter != 48) begin
fill_me = {fill_me[46:0], sd_cmd_real};
counter--;
end
@(posedge clk);
end
assert (fill_me === {2'b01, 6'd8, 32'h1AA, 8'h87})
else $error("Received wrong command, got 0x%x",fill_me);
assert (ready)
else $error("SD command sender not ready");
$finish;
end
endmodule
verification/segment_display/seconds_display_tb.sv
+8
View File
@@ -1,3 +1,11 @@
/****
* seconds_display_tb.sv - testbench for the seconds_display module.
*
* @author: Waylon Cude, Dilanthi Prentice
* @date: 6/12/2025
*
* */
`timescale 1ns / 1ps
module seconds_display_tb;
int errors = 0;
verification/waveform_configs/crc_gen_tb_behav.wcfg
+63
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@@ -0,0 +1,63 @@
<?xml version="1.0" encoding="UTF-8"?>
<wave_config>
<wave_state>
</wave_state>
<db_ref_list>
<db_ref path="crc_gen_tb_behav.wdb" id="1">
<top_modules>
<top_module name="crc_gen_tb" />
<top_module name="glbl" />
</top_modules>
</db_ref>
</db_ref_list>
<zoom_setting>
<ZoomStartTime time="609.789 ns"></ZoomStartTime>
<ZoomEndTime time="1,276.290 ns"></ZoomEndTime>
<Cursor1Time time="209.703 ns"></Cursor1Time>
</zoom_setting>
<column_width_setting>
<NameColumnWidth column_width="533"></NameColumnWidth>
<ValueColumnWidth column_width="219"></ValueColumnWidth>
</column_width_setting>
<WVObjectSize size="10" />
<wvobject type="logic" fp_name="/crc_gen_tb/clk">
<obj_property name="ElementShortName">clk</obj_property>
<obj_property name="ObjectShortName">clk</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/crc_gen_tb/reset">
<obj_property name="ElementShortName">reset</obj_property>
<obj_property name="ObjectShortName">reset</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/crc_gen_tb/start">
<obj_property name="ElementShortName">start</obj_property>
<obj_property name="ObjectShortName">start</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/crc_gen_tb/ready">
<obj_property name="ElementShortName">ready</obj_property>
<obj_property name="ObjectShortName">ready</obj_property>
</wvobject>
<wvobject type="array" fp_name="/crc_gen_tb/num">
<obj_property name="ElementShortName">num[39:0]</obj_property>
<obj_property name="ObjectShortName">num[39:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/crc_gen_tb/crc">
<obj_property name="ElementShortName">crc[6:0]</obj_property>
<obj_property name="ObjectShortName">crc[6:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/crc_gen_tb/CRCBITS">
<obj_property name="ElementShortName">CRCBITS[31:0]</obj_property>
<obj_property name="ObjectShortName">CRCBITS[31:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/crc_gen_tb/COMMANDLEN">
<obj_property name="ElementShortName">COMMANDLEN[31:0]</obj_property>
<obj_property name="ObjectShortName">COMMANDLEN[31:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/crc_gen_tb/POLYNOMIAL">
<obj_property name="ElementShortName">POLYNOMIAL[31:0]</obj_property>
<obj_property name="ObjectShortName">POLYNOMIAL[31:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/crc_gen_tb/dut/counter">
<obj_property name="ElementShortName">counter[6:0]</obj_property>
<obj_property name="ObjectShortName">counter[6:0]</obj_property>
</wvobject>
</wave_config>
verification/waveform_configs/read_command_tb_behav.wcfg
+67
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@@ -0,0 +1,67 @@
<?xml version="1.0" encoding="UTF-8"?>
<wave_config>
<wave_state>
</wave_state>
<db_ref_list>
<db_ref path="read_command_tb_behav.wdb" id="1">
<top_modules>
<top_module name="glbl" />
<top_module name="read_command_tb" />
</top_modules>
</db_ref>
</db_ref_list>
<zoom_setting>
<ZoomStartTime time="0.000 ns"></ZoomStartTime>
<ZoomEndTime time="1,370.001 ns"></ZoomEndTime>
<Cursor1Time time="330.000 ns"></Cursor1Time>
</zoom_setting>
<column_width_setting>
<NameColumnWidth column_width="533"></NameColumnWidth>
<ValueColumnWidth column_width="187"></ValueColumnWidth>
</column_width_setting>
<WVObjectSize size="11" />
<wvobject type="logic" fp_name="/read_command_tb/clk">
<obj_property name="ElementShortName">clk</obj_property>
<obj_property name="ObjectShortName">clk</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/read_command_tb/reset">
<obj_property name="ElementShortName">reset</obj_property>
<obj_property name="ObjectShortName">reset</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/read_command_tb/listen">
<obj_property name="ElementShortName">listen</obj_property>
<obj_property name="ObjectShortName">listen</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/read_command_tb/sd_cmd">
<obj_property name="ElementShortName">sd_cmd</obj_property>
<obj_property name="ObjectShortName">sd_cmd</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/read_command_tb/received">
<obj_property name="ElementShortName">received</obj_property>
<obj_property name="ObjectShortName">received</obj_property>
</wvobject>
<wvobject type="array" fp_name="/read_command_tb/out_data">
<obj_property name="ElementShortName">out_data[39:0]</obj_property>
<obj_property name="ObjectShortName">out_data[39:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/read_command_tb/dut/state">
<obj_property name="ElementShortName">state[2:0]</obj_property>
<obj_property name="ObjectShortName">state[2:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/read_command_tb/dut/counter">
<obj_property name="ElementShortName">counter[6:0]</obj_property>
<obj_property name="ObjectShortName">counter[6:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/read_command_tb/dut/data_reg">
<obj_property name="ElementShortName">data_reg[39:0]</obj_property>
<obj_property name="ObjectShortName">data_reg[39:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/read_command_tb/response_type">
<obj_property name="ElementShortName">response_type[2:0]</obj_property>
<obj_property name="ObjectShortName">response_type[2:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/read_command_tb/dut/response_type_reg">
<obj_property name="ElementShortName">response_type_reg[2:0]</obj_property>
<obj_property name="ObjectShortName">response_type_reg[2:0]</obj_property>
</wvobject>
</wave_config>
verification/waveform_configs/read_data_tb_behav.wcfg
+96
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@@ -0,0 +1,96 @@
<?xml version="1.0" encoding="UTF-8"?>
<wave_config>
<wave_state>
</wave_state>
<db_ref_list>
<db_ref path="read_data_tb_behav.wdb" id="1">
<top_modules>
<top_module name="glbl" />
<top_module name="read_data_tb" />
<top_module name="sdvd_defs" />
</top_modules>
</db_ref>
</db_ref_list>
<zoom_setting>
<ZoomStartTime time="1,438.800 ns"></ZoomStartTime>
<ZoomEndTime time="1,718.201 ns"></ZoomEndTime>
<Cursor1Time time="618.800 ns"></Cursor1Time>
</zoom_setting>
<column_width_setting>
<NameColumnWidth column_width="533"></NameColumnWidth>
<ValueColumnWidth column_width="155"></ValueColumnWidth>
</column_width_setting>
<WVObjectSize size="18" />
<wvobject type="logic" fp_name="/read_data_tb/clk">
<obj_property name="ElementShortName">clk</obj_property>
<obj_property name="ObjectShortName">clk</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/read_data_tb/sd_clk">
<obj_property name="ElementShortName">sd_clk</obj_property>
<obj_property name="ObjectShortName">sd_clk</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/read_data_tb/reset">
<obj_property name="ElementShortName">reset</obj_property>
<obj_property name="ObjectShortName">reset</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/read_data_tb/play">
<obj_property name="ElementShortName">play</obj_property>
<obj_property name="ObjectShortName">play</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/read_data_tb/stop">
<obj_property name="ElementShortName">stop</obj_property>
<obj_property name="ObjectShortName">stop</obj_property>
</wvobject>
<wvobject type="array" fp_name="/read_data_tb/speed">
<obj_property name="ElementShortName">speed[3:0]</obj_property>
<obj_property name="ObjectShortName">speed[3:0]</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/read_data_tb/playing">
<obj_property name="ElementShortName">playing</obj_property>
<obj_property name="ObjectShortName">playing</obj_property>
</wvobject>
<wvobject type="array" fp_name="/read_data_tb/sample">
<obj_property name="ElementShortName">sample[15:0]</obj_property>
<obj_property name="ObjectShortName">sample[15:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/read_data_tb/counter">
<obj_property name="ElementShortName">counter[10:0]</obj_property>
<obj_property name="ObjectShortName">counter[10:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/read_data_tb/test_memory">
<obj_property name="ElementShortName">test_memory[1023:0][15:0]</obj_property>
<obj_property name="ObjectShortName">test_memory[1023:0][15:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/read_data_tb/bufferInterface/driver/addra">
<obj_property name="ElementShortName">addra[10:0]</obj_property>
<obj_property name="ObjectShortName">addra[10:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/read_data_tb/bufferInterface/driver/dina">
<obj_property name="ElementShortName">dina[7:0]</obj_property>
<obj_property name="ObjectShortName">dina[7:0]</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/read_data_tb/bufferInterface/driver/ena">
<obj_property name="ElementShortName">ena</obj_property>
<obj_property name="ObjectShortName">ena</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/read_data_tb/bufferInterface/driver/address_half">
<obj_property name="ElementShortName">address_half</obj_property>
<obj_property name="ObjectShortName">address_half</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/read_data_tb/sd_data">
<obj_property name="ElementShortName">sd_data</obj_property>
<obj_property name="ObjectShortName">sd_data</obj_property>
</wvobject>
<wvobject type="array" fp_name="/read_data_tb/readerDut/byte_shift">
<obj_property name="ElementShortName">byte_shift[7:0]</obj_property>
<obj_property name="ObjectShortName">byte_shift[7:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/read_data_tb/readerDut/byte_counter">
<obj_property name="ElementShortName">byte_counter[3:0]</obj_property>
<obj_property name="ObjectShortName">byte_counter[3:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/read_data_tb/readerDut/counter">
<obj_property name="ElementShortName">counter[13:0]</obj_property>
<obj_property name="ObjectShortName">counter[13:0]</obj_property>
</wvobject>
</wave_config>
verification/waveform_configs/rom_sd_waveform.wcfg
+63
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<?xml version="1.0" encoding="UTF-8"?>
<wave_config>
<wave_state>
</wave_state>
<db_ref_list>
<db_ref path="rom_sd_tb_behav.wdb" id="1">
<top_modules>
<top_module name="glbl" />
<top_module name="rom_sd_tb" />
</top_modules>
</db_ref>
</db_ref_list>
<zoom_setting>
<ZoomStartTime time="0.000 ns"></ZoomStartTime>
<ZoomEndTime time="143.201 ns"></ZoomEndTime>
<Cursor1Time time="0.000 ns"></Cursor1Time>
</zoom_setting>
<column_width_setting>
<NameColumnWidth column_width="453"></NameColumnWidth>
<ValueColumnWidth column_width="200"></ValueColumnWidth>
</column_width_setting>
<WVObjectSize size="10" />
<wvobject type="logic" fp_name="/rom_sd_tb/clk">
<obj_property name="ElementShortName">clk</obj_property>
<obj_property name="ObjectShortName">clk</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/rom_sd_tb/reset">
<obj_property name="ElementShortName">reset</obj_property>
<obj_property name="ObjectShortName">reset</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/rom_sd_tb/ready">
<obj_property name="ElementShortName">ready</obj_property>
<obj_property name="ObjectShortName">ready</obj_property>
</wvobject>
<wvobject type="array" fp_name="/rom_sd_tb/dut/rom_data">
<obj_property name="ElementShortName">rom_data[7:0]</obj_property>
<obj_property name="ObjectShortName">rom_data[7:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/rom_sd_tb/dut/current">
<obj_property name="ElementShortName">current[2:0]</obj_property>
<obj_property name="ObjectShortName">current[2:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/rom_sd_tb/dut/rom_addr">
<obj_property name="ElementShortName">rom_addr[16:0]</obj_property>
<obj_property name="ObjectShortName">rom_addr[16:0]</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/rom_sd_tb/dut/rom_enable">
<obj_property name="ElementShortName">rom_enable</obj_property>
<obj_property name="ObjectShortName">rom_enable</obj_property>
</wvobject>
<wvobject type="array" fp_name="/rom_sd_tb/buffer/addra">
<obj_property name="ElementShortName">addra[10:0]</obj_property>
<obj_property name="ObjectShortName">addra[10:0]</obj_property>
</wvobject>
<wvobject type="array" fp_name="/rom_sd_tb/buffer/dina">
<obj_property name="ElementShortName">dina[7:0]</obj_property>
<obj_property name="ObjectShortName">dina[7:0]</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/rom_sd_tb/buffer/ena">
<obj_property name="ElementShortName">ena</obj_property>
<obj_property name="ObjectShortName">ena</obj_property>
</wvobject>
</wave_config>
verification/waveform_configs/sd_controller_tb_behav.wcfg
+67
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<?xml version="1.0" encoding="UTF-8"?>
<wave_config>
<wave_state>
</wave_state>
<db_ref_list>
<db_ref path="sd_controller_tb_behav.wdb" id="1">
<top_modules>
<top_module name="glbl" />
<top_module name="sd_controller_tb" />
</top_modules>
</db_ref>
</db_ref_list>
<zoom_setting>
<ZoomStartTime time="41,685.336 ns"></ZoomStartTime>
<ZoomEndTime time="44,957.696 ns"></ZoomEndTime>
<Cursor1Time time="0.000 ns"></Cursor1Time>
</zoom_setting>
<column_width_setting>
<NameColumnWidth column_width="469"></NameColumnWidth>
<ValueColumnWidth column_width="172"></ValueColumnWidth>
</column_width_setting>
<WVObjectSize size="11" />
<wvobject type="logic" fp_name="/sd_controller_tb/slow_clk">
<obj_property name="ElementShortName">slow_clk</obj_property>
<obj_property name="ObjectShortName">slow_clk</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/sd_controller_tb/fast_clk">
<obj_property name="ElementShortName">fast_clk</obj_property>
<obj_property name="ObjectShortName">fast_clk</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/sd_controller_tb/crc_clk">
<obj_property name="ElementShortName">crc_clk</obj_property>
<obj_property name="ObjectShortName">crc_clk</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/sd_controller_tb/reset">
<obj_property name="ElementShortName">reset</obj_property>
<obj_property name="ObjectShortName">reset</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/sd_controller_tb/sd_data">
<obj_property name="ElementShortName">sd_data</obj_property>
<obj_property name="ObjectShortName">sd_data</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/sd_controller_tb/sd_cmd">
<obj_property name="ElementShortName">sd_cmd</obj_property>
<obj_property name="ObjectShortName">sd_cmd</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/sd_controller_tb/ready">
<obj_property name="ElementShortName">ready</obj_property>
<obj_property name="ObjectShortName">ready</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/sd_controller_tb/clk">
<obj_property name="ElementShortName">clk</obj_property>
<obj_property name="ObjectShortName">clk</obj_property>
</wvobject>
<wvobject type="array" fp_name="/sd_controller_tb/dut/state">
<obj_property name="ElementShortName">state[5:0]</obj_property>
<obj_property name="ObjectShortName">state[5:0]</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/sd_controller_tb/dut/sender/ready">
<obj_property name="ElementShortName">ready</obj_property>
<obj_property name="ObjectShortName">ready</obj_property>
</wvobject>
<wvobject type="logic" fp_name="/sd_controller_tb/dut/reader/received">
<obj_property name="ElementShortName">received</obj_property>
<obj_property name="ObjectShortName">received</obj_property>
</wvobject>
</wave_config>