Commit 17ebdc3d authored by Andrey Filippov's avatar Andrey Filippov

started simulation

parent 68be8f5b
com.elphel.store.context.iverilog=iverilog_81_TopModulesOther<-@\#\#@->iverilog_83_ExtraFiles<-@\#\#@->iverilog_88_ShowNoProblem<-@\#\#@->iverilog_77_Param_Exe<-@\#\#@->iverilog_78_VVP_Exe<-@\#\#@->iverilog_99_GrepFindErrWarn<-@\#\#@->iverilog_89_ShowNoProblem<-@\#\#@->iverilog_79_GtkWave_Exe<-@\#\#@->iverilog_103_ExtraFiles<-@\#\#@->iverilog_104_IncludeDir<-@\#\#@->iverilog_101_TopModulesOther<-@\#\#@->iverilog_122_IVerilogOther<-@\#\#@->iverilog_110_ShowNoProblem<-@\#\#@->iverilog_113_SaveLogsPreprocessor<-@\#\#@->iverilog_114_SaveLogsSimulator<-@\#\#@->iverilog_105_IncludeDir<-@\#\#@->iverilog_102_TopModulesOther<-@\#\#@->iverilog_104_ExtraFiles<-@\#\#@->iverilog_119_GTKWaveSavFile<-@\#\#@->iverilog_103_TopModulesOther<-@\#\#@->iverilog_106_IncludeDir<-@\#\#@->iverilog_120_GTKWaveSavFile<-@\#\#@->iverilog_111_ShowNoProblem<-@\#\#@->iverilog_115_SaveLogsSimulator<-@\#\#@->iverilog_122_GrepFindErrWarn<-@\#\#@->iverilog_105_ExtraFiles<-@\#\#@->
com.elphel.store.context.iverilog=iverilog_81_TopModulesOther<-@\#\#@->iverilog_83_ExtraFiles<-@\#\#@->iverilog_88_ShowNoProblem<-@\#\#@->iverilog_77_Param_Exe<-@\#\#@->iverilog_78_VVP_Exe<-@\#\#@->iverilog_99_GrepFindErrWarn<-@\#\#@->iverilog_89_ShowNoProblem<-@\#\#@->iverilog_79_GtkWave_Exe<-@\#\#@->iverilog_103_ExtraFiles<-@\#\#@->iverilog_104_IncludeDir<-@\#\#@->iverilog_101_TopModulesOther<-@\#\#@->iverilog_122_IVerilogOther<-@\#\#@->iverilog_110_ShowNoProblem<-@\#\#@->iverilog_113_SaveLogsPreprocessor<-@\#\#@->iverilog_114_SaveLogsSimulator<-@\#\#@->iverilog_105_IncludeDir<-@\#\#@->iverilog_102_TopModulesOther<-@\#\#@->iverilog_104_ExtraFiles<-@\#\#@->iverilog_119_GTKWaveSavFile<-@\#\#@->iverilog_103_TopModulesOther<-@\#\#@->iverilog_106_IncludeDir<-@\#\#@->iverilog_120_GTKWaveSavFile<-@\#\#@->iverilog_111_ShowNoProblem<-@\#\#@->iverilog_115_SaveLogsSimulator<-@\#\#@->iverilog_122_GrepFindErrWarn<-@\#\#@->iverilog_105_ExtraFiles<-@\#\#@->iverilog_95_IcarusTopFile<-@\#\#@->
eclipse.preferences.version=1
iverilog_101_TopModulesOther=glbl<-@\#\#@->
iverilog_102_TopModulesOther=glbl<-@\#\#@->
......@@ -15,7 +15,7 @@ iverilog_113_SaveLogsPreprocessor=true
iverilog_114_SaveLogsSimulator=true
iverilog_115_SaveLogsSimulator=true
iverilog_119_GTKWaveSavFile=tb_top_02.sav
iverilog_120_GTKWaveSavFile=tb_top_02.sav
iverilog_120_GTKWaveSavFile=tb_ahci_01.sav
iverilog_122_GrepFindErrWarn=error|warning|sorry
iverilog_77_Param_Exe=/usr/local/bin/iverilog
iverilog_78_VVP_Exe=/usr/local/bin/vvp
......@@ -24,4 +24,5 @@ iverilog_81_TopModulesOther=glbl<-@\#\#@->
iverilog_83_ExtraFiles=glbl.v<-@\#\#@->
iverilog_88_ShowNoProblem=true
iverilog_89_ShowNoProblem=true
iverilog_95_IcarusTopFile=tb/tb_ahci.tf
iverilog_99_GrepFindErrWarn=error|warning|sorry
......@@ -316,7 +316,8 @@ module ahci_fsm
always @ (posedge mclk) begin
if (hba_rst) pgm_jump_addr <= (was_hba_rst || was_port_rst) ? (was_hba_rst? LABEL_HBA_RST:LABEL_PORT_RST) : LABEL_POR;
else if (async_pend_r[1]) pgm_jump_addr <= async_from_st? LABEL_ST_CLEARED : LABEL_COMINIT;
// else if (async_pend_r[1]) pgm_jump_addr <= async_from_st? LABEL_ST_CLEARED : LABEL_COMINIT;
else if (async_pend_r[0]) pgm_jump_addr <= async_from_st? LABEL_ST_CLEARED : LABEL_COMINIT;
else if (fsm_transitions[0] && (!cond_met_w || !fsm_transitions[1])) pgm_jump_addr <= pgm_data[9:0];
was_rst <= hba_rst;
......
......@@ -24,7 +24,9 @@ module ahci_top#(
parameter PREFETCH_ALWAYS = 0,
parameter READ_REG_LATENCY = 2, // 0 if reg_rdata is available with reg_re/reg_addr, 2 with re/regen
parameter READ_CT_LATENCY = 1, // 0 if ct_rdata is available with reg_re/reg_addr, 2 with re/regen
parameter ADDRESS_BITS = 10 // number of memory address bits - now fixed. Low half - RO/RW/RWC,RW1 (2-cycle write), 2-nd just RW (single-cycle)
parameter ADDRESS_BITS = 10, // number of memory address bits - now fixed. Low half - RO/RW/RWC,RW1 (2-cycle write), 2-nd just RW (single-cycle)
parameter HBA_RESET_BITS = 9, // duration of HBA reset in aclk periods (9: ~10usec)
parameter RESET_TO_FIRST_ACCESS = 1 // keep port reset until first R/W any register by software
)(
input aclk, // clock - should be buffered
input arst, // @aclk sync reset, active high
......@@ -32,8 +34,8 @@ module ahci_top#(
input mrst, // reset in mclk clock domain (after SATA PLL is on)
// async reset for SATA (mrst will be response to it)
output hba_arst, // hba async reset (currently does ~ the same as port reset)
output port_arst, // port0 async reset by software
output port_arst, // port0 async set by software (does not include arst)
output port_arst_any, // port0 async set by software and by arst
input hclk, // AXI HP interface clock for 64-bit DMA (current - 150MHz
input hrst, // reset in hclk clock domain
// MAXIGP1
......@@ -594,7 +596,9 @@ module ahci_top#(
axi_ahci_regs #(
.ADDRESS_BITS(10)
.ADDRESS_BITS (ADDRESS_BITS),
.HBA_RESET_BITS (HBA_RESET_BITS),
.RESET_TO_FIRST_ACCESS (RESET_TO_FIRST_ACCESS)
) axi_ahci_regs_i (
.aclk (aclk), // input
.arst (arst), // input
......@@ -632,6 +636,7 @@ module ahci_top#(
.soft_write_data (soft_write_data), // output[31:0]
.soft_write_en (soft_write_en), // output
.hba_arst (hba_arst), // output // does not include arst
.port_arst_any (port_arst_any), // async set by arst
.port_arst (port_arst), // output // does not include arst
.hba_clk (mclk), // input
.hba_rst (mrst), // input // deasserted when mclk is stable
......
......@@ -40,7 +40,8 @@
module axi_ahci_regs#(
// parameter ADDRESS_BITS = 8 // number of memory address bits
parameter ADDRESS_BITS = 10, // number of memory address bits - now fixed. Low half - RO/RW/RWC,RW1 (2-cycle write), 2-nd just RW (single-cycle)
parameter HBA_RESET_BITS = 9 // duration of HBA reset in aclk periods (9: ~10usec)
parameter HBA_RESET_BITS = 9, // duration of HBA reset in aclk periods (9: ~10usec)
parameter RESET_TO_FIRST_ACCESS = 1 // keep port reset until first R/W any register by software
)(
input aclk, // clock - should be buffered
input arst, // @aclk sync reset, active high
......@@ -89,6 +90,7 @@ module axi_ahci_regs#(
// Apply next 2 resets and arst OR-ed to SATA.extrst
output hba_arst, // hba async reset (currently does ~ the same as port reset)
output port_arst, // port0 async reset by software
output port_arst_any, // port0 async reset by POR or software
// 2. HBA R/W registers, use hba clock
input hba_clk, // SATA clock, now 75MHz
......@@ -161,9 +163,10 @@ module axi_ahci_regs#(
wire [31:0] wmask = {{8{bram_wstb_r[3]}},{8{bram_wstb_r[2]}},{8{bram_wstb_r[1]}},{8{bram_wstb_r[0]}}};
reg [ADDRESS_BITS-1:0] bram_waddr_r;
reg [HBA_RESET_BITS-1:0] hba_reset_cntr = 1; // time to keep hba_reset_r active after writing to GHC.HR
reg [HBA_RESET_BITS-1:0] hba_reset_cntr; // time to keep hba_reset_r active after writing to GHC.HR
reg hba_rst_r; // hba _reset (currently does ~ the same as port reset)
reg port_rst_r; // port _reset by software
reg port_arst_any_r = 1; // port _reset by software or POR
wire high_sel = bram_waddr_r[ADDRESS_BITS-1]; // high addresses - use single-cycle writes without read-modify-write
wire afi_cache_set_w = bram_wen_r && !high_sel && (bram_addr == HBA_PORT__AFI_CACHE__WR_CM__ADDR);
......@@ -180,13 +183,15 @@ module axi_ahci_regs#(
reg was_port_rst_aclk; // last reset was port reset
reg [2:0] was_hba_rst_r; // last reset was hba reset (not counting system reset)
reg [2:0] was_port_rst_r; // last reset was port reset
reg [2:0] arst_r = ~0; // previous state of arst
reg wait_first_access = RESET_TO_FIRST_ACCESS; // keep port reset until first access
wire any_access = bram_wen_r || bram_ren[0];
// assign bram_addr = bram_ren[0] ? bram_raddr : (bram_wen ? bram_waddr : pre_awaddr);
assign bram_addr = bram_ren[0] ? bram_raddr : (bram_wen_r ? bram_waddr_r : bram_waddr);
assign hba_arst = hba_rst_r; // hba _reset (currently does ~ the same as port reset)
assign port_arst = port_rst_r; // port _reset by software
assign port_arst_any = port_arst_any_r;
assign was_hba_rst = was_hba_rst_r[0];
assign was_port_rst = was_port_rst_r[0];
......@@ -221,6 +226,17 @@ module axi_ahci_regs#(
end
endgenerate
// always @ (posedge aclk or posedge arst) begin
always @ (posedge aclk) begin
if (arst) wait_first_access <= RESET_TO_FIRST_ACCESS;
else if (any_access) wait_first_access <= 0;
if (arst) port_arst_any_r <= 1;
else if (set_port_rst) port_arst_any_r <= ahci_regs_di[0]; // write "1" - reset on, write 0 - reset off
else if (wait_first_access && any_access) port_arst_any_r <= 0;
else if (arst_r[2] && !arst_r[1]) port_arst_any_r <= wait_first_access;
end
always @(posedge aclk) begin
if (arst) hba_reset_cntr <= 0; // 1; no HBA reset at arst
else if (set_hba_rst) hba_reset_cntr <= {HBA_RESET_BITS{1'b1}};
......@@ -237,6 +253,9 @@ module axi_ahci_regs#(
if (arst || set_hba_rst) was_port_rst_aclk <= 0;
else if (port_rst_on) was_port_rst_aclk <= 1;
if (arst) arst_r <= ~0;
else arst_r <= arst_r << 1;
end
always @ (hba_clk) begin
......
......@@ -35,7 +35,14 @@
/*
* Takes commands from axi iface as a slave, transfers data with another axi iface as a master
*/
module sata_ahci_top(
module sata_ahci_top#(
parameter PREFETCH_ALWAYS = 0,
// parameter READ_REG_LATENCY = 2, // 0 if reg_rdata is available with reg_re/reg_addr, 2 with re/regen
// parameter READ_CT_LATENCY = 1, // 0 if ct_rdata is available with reg_re/reg_addr, 2 with re/regen
parameter ADDRESS_BITS = 10, // number of memory address bits - now fixed. Low half - RO/RW/RWC,RW1 (2-cycle write), 2-nd just RW (single-cycle)
parameter HBA_RESET_BITS = 9, // duration of HBA reset in aclk periods (9: ~10usec)
parameter RESET_TO_FIRST_ACCESS = 1 // keep port reset until first R/W any register by software
)(
output wire sata_clk,
output wire sata_rst,
input wire arst, // extrst,
......@@ -157,11 +164,11 @@
// wire sata_clk;
// wire sata_rst;
wire hba_arst;
wire hba_arst; // @SuppressThisWarning VEditor unused
wire port_arst; // @SuppressThisWarning VEditor unused
wire port_arst_any;
wire exrst = port_arst_any; // now both hba_arst and port_arst are the same?
wire port_arst;
wire exrst = port_arst; // now both hba_arst and port_arst are the same?
// Data/type FIFO, host -> device
......@@ -224,10 +231,12 @@
ahci_top #(
.PREFETCH_ALWAYS(0),
.READ_REG_LATENCY(2),
.READ_CT_LATENCY(1),
.ADDRESS_BITS(10)
.PREFETCH_ALWAYS (PREFETCH_ALWAYS),
// .READ_REG_LATENCY (READ_REG_LATENCY),
// .READ_CT_LATENCY (READ_CT_LATENCY),
.ADDRESS_BITS (ADDRESS_BITS),
.HBA_RESET_BITS (HBA_RESET_BITS),
.RESET_TO_FIRST_ACCESS (RESET_TO_FIRST_ACCESS)
) ahci_top_i (
.aclk (ACLK), // input
.arst (arst), // input
......@@ -235,6 +244,8 @@
.mrst (sata_rst), // input
.hba_arst (hba_arst), // output
.port_arst (port_arst), // output
.port_arst_any (port_arst_any), // port0 async set by software and by arst
.hclk (hclk), // input
.hrst (hrst), // input
......
/*******************************************************************************
* Module: action_decoder
* Date:2016-01-19
* Date:2016-01-22
* Author: auto-generated file, see ahci_fsm_sequence.py
* Description: Decode sequencer code to 1-hot actions
*******************************************************************************/
......
/*******************************************************************************
* Module: condition_mux
* Date:2016-01-19
* Date:2016-01-22
* Author: auto-generated file, see ahci_fsm_sequence.py
* Description: Select condition
*******************************************************************************/
......
......@@ -37,49 +37,32 @@ module oob_ctrl #(
parameter CLK_SPEED_GRADE = 1 // 1 - 75 Mhz, 2 - 150Mhz, 4 - 300Mhz
)
(
// sata clk = usrclk2
input wire clk,
// reset oob
input wire rst,
// gtx is ready = all resets are done
input wire gtx_ready,
output wire [11:0] debug,
// oob responses
input wire rxcominitdet_in,
input wire rxcomwakedet_in,
input wire rxelecidle_in,
// oob issues
output wire txcominit,
output wire txcomwake,
output wire txelecidle,
// partial tx reset
output wire txpcsreset_req,
input wire recal_tx_done,
// rx reset (after rxelecidle -> 0)
output wire rxreset_req,
input wire rxreset_ack,
// input data stream (if any data during OOB setting => ignored)
input wire [DATA_BYTE_WIDTH*8 - 1:0] txdata_in,
input wire [DATA_BYTE_WIDTH - 1:0] txcharisk_in,
// output data stream to gtx
output wire [DATA_BYTE_WIDTH*8 - 1:0] txdata_out,
output wire [DATA_BYTE_WIDTH - 1:0] txcharisk_out,
// input data from gtx
input wire [DATA_BYTE_WIDTH*8 - 1:0] rxdata_in,
input wire [DATA_BYTE_WIDTH - 1:0] rxcharisk_in,
// bypassed data from gtx
output wire [DATA_BYTE_WIDTH*8 - 1:0] rxdata_out,
output wire [DATA_BYTE_WIDTH - 1:0] rxcharisk_out,
// obvious
input wire rxbyteisaligned,
// shows if channel is ready
output wire phy_ready,
// From
input set_offline, // electrically idle
input comreset_send // Not possible yet?
input wire clk, // input wire // sata clk = usrclk2
input wire rst, // input wire // reset oob
input wire gtx_ready, // input wire // gtx is ready = all resets are done
output wire [11:0] debug, // output[11:0] wire
input wire rxcominitdet_in,// input wire // oob responses
input wire rxcomwakedet_in,// input wire // oob responses
input wire rxelecidle_in, // input wire // oob responses
output wire txcominit, // output wire // oob issues
output wire txcomwake, // output wire // oob issues
output wire txelecidle, // output wire // oob issues
output wire txpcsreset_req, // output wire // partial tx reset
input wire recal_tx_done, // input wire
output wire rxreset_req, // output wire // rx reset (after rxelecidle -> 0)
input wire rxreset_ack, // input wire
input wire [DATA_BYTE_WIDTH*8 - 1:0] txdata_in, // output[31:0] wire // input data stream (if any data during OOB setting => ignored)
input wire [DATA_BYTE_WIDTH - 1:0] txcharisk_in, // output[3:0] wire // input data stream (if any data during OOB setting => ignored)
output wire [DATA_BYTE_WIDTH*8 - 1:0] txdata_out, // output[31:0] wire // output data stream to gtx
output wire [DATA_BYTE_WIDTH - 1:0] txcharisk_out, // output[3:0] wire // output data stream to gtx
input wire [DATA_BYTE_WIDTH*8 - 1:0] rxdata_in, // input[31:0] wire // input data from gtx
input wire [DATA_BYTE_WIDTH - 1:0] rxcharisk_in, // input[3:0] wire // input data from gtx
output wire [DATA_BYTE_WIDTH*8 - 1:0] rxdata_out, // output[31:0] wire // bypassed data from gtx
output wire [DATA_BYTE_WIDTH - 1:0] rxcharisk_out, // output[3:0] wire // bypassed data from gtx
input wire rxbyteisaligned,// input wire // obvious
output wire phy_ready, // output wire // shows if channel is ready
input set_offline, // input wire // electrically idle // From
input comreset_send // input wire // Not possible yet? // From
);
// oob sequence needs to be issued
......@@ -145,62 +128,38 @@ oob #(
)
oob
(
.debug (debug),
// sata clk = usrclk2
.clk (clk),
// reset oob
.rst (rst),
// oob responses
.rxcominitdet_in (rxcominitdet_in),
.rxcomwakedet_in (rxcomwakedet_in),
.rxelecidle_in (rxelecidle_in),
// oob issues
.txcominit (txcominit),
.txcomwake (txcomwake),
.txelecidle (txelecidle_inner),
.txpcsreset_req (txpcsreset_req),
.recal_tx_done (recal_tx_done),
.rxreset_req (rxreset_req),
.rxreset_ack (rxreset_ack),
// input data stream (if any data during OOB setting => ignored)
.txdata_in (txdata_in),
.txcharisk_in (txcharisk_in),
// output data stream to gtx
.txdata_out (txdata_out),
.txcharisk_out (txcharisk_out),
// input data from gtx
.rxdata_in (rxdata_in),
.rxcharisk_in (rxcharisk_in),
// bypassed data from gtx
.rxdata_out (rxdata_out),
.rxcharisk_out (rxcharisk_out),
// oob sequence needs to be issued
.oob_start (oob_start),
// connection established, all further data is valid
.oob_done (oob_done),
// doc p265, link is established after 3back-to-back non-ALIGNp
.link_up (link_up),
.link_down (link_down),
// the device itself sends cominit
.cominit_req (cominit_req),
// allow to respond to cominit
.cominit_allow (cominit_allow),
// status information to handle by a control block if any exists
// incompatible host-device speed grades (host cannot lock to alignp)
.oob_incompatible (oob_incompatible),
// timeout in an unexpected place
.oob_error (oob_error),
// noone responds to our cominits
.oob_silence (oob_silence),
// oob can't handle new start request
.oob_busy (oob_busy)
.debug (debug), // output [11:0] reg
.clk (clk), // input wire // sata clk = usrclk2
.rst (rst), // input wire // reset oob
.rxcominitdet_in (rxcominitdet_in), // input wire // oob responses
.rxcomwakedet_in (rxcomwakedet_in), // input wire // oob responses
.rxelecidle_in (rxelecidle_in), // input wire // oob responses
.txcominit (txcominit), // output wire // oob issues
.txcomwake (txcomwake), // output wire // oob issues
.txelecidle (txelecidle_inner), // output wire // oob issues
.txpcsreset_req (txpcsreset_req), // output wire
.recal_tx_done (recal_tx_done), // input wire
.rxreset_req (rxreset_req), // output wire
.rxreset_ack (rxreset_ack), // input wire
.txdata_in (txdata_in), // input [31:0] wire // input data stream (if any data during OOB setting => ignored)
.txcharisk_in (txcharisk_in), // input [3:0] wire // input data stream (if any data during OOB setting => ignored)
.txdata_out (txdata_out), // output [31:0] wire // output data stream to gtx
.txcharisk_out (txcharisk_out), // output [3:0] wire// output data stream to gtx
.rxdata_in (rxdata_in), // input [31:0] wire // input data from gtx
.rxcharisk_in (rxcharisk_in), // input [3:0] wire // input data from gtx
.rxdata_out (rxdata_out), // output [31:0] wire // bypassed data from gtx
.rxcharisk_out (rxcharisk_out), // output [3:0] wire // bypassed data from gtx
.oob_start (oob_start), // input wire // oob sequence needs to be issued
.oob_done (oob_done), // output wire // connection established, all further data is valid
.oob_busy (oob_busy), // output wire // oob can't handle new start request
.link_up (link_up), // output wire // doc p265, link is established after 3back-to-back non-ALIGNp
.link_down (link_down), // output wire
.cominit_req (cominit_req), // output wire // the device itself sends cominit
.cominit_allow (cominit_allow), // input wire // allow to respond to cominit
// status information to handle by a control block if any exists
.oob_incompatible (oob_incompatible),// output wire // incompatible host-device speed grades (host cannot lock to alignp)
.oob_error (oob_error), // output wire // timeout in an unexpected place
.oob_silence (oob_silence) // output wire // noone responds to our cominits
);
......
......@@ -204,9 +204,10 @@ localparam RXISCANRESET_TIME = 5'h1;
localparam RXEYERESET_TIME = 7'h0 + RXPMARESET_TIME + RXCDRPHRESET_TIME + RXCDRFREQRESET_TIME + RXDFELPMRESET_TIME + RXISCANRESET_TIME;
reg [6:0] rxeyereset_cnt;
assign rxeyereset_done = rxeyereset_cnt == RXEYERESET_TIME;
always @ (posedge gtrefclk)
rxeyereset_cnt <= rxreset ? 7'h0 : rxeyereset_done ? rxeyereset_cnt : rxeyereset_cnt + 1'b1;
always @ (posedge gtrefclk) begin
if (rxreset) rxeyereset_cnt <= 0;
else if (!rxeyereset_done) rxeyereset_cnt <= rxeyereset_cnt + 1;
end
/*
* Resets
*/
......@@ -221,8 +222,12 @@ reg rxreset_f_rr;
reg txreset_f_rr;
always @ (posedge gtrefclk)
begin
rxreset_f <= ~cplllock | cpllreset | rxreset_oob & gtx_configured;
txreset_f <= ~cplllock | cpllreset;
// rxreset_f <= ~cplllock | cpllreset | rxreset_oob & gtx_configured;
// txreset_f <= ~cplllock | cpllreset;
rxreset_f <= ~cplllock | cpllreset | ~usrpll_locked | ~sata_reset_done | rxreset_oob & gtx_configured;
txreset_f <= ~cplllock | cpllreset | ~usrpll_locked;
txreset_f_r <= txreset_f;
rxreset_f_r <= rxreset_f;
txreset_f_rr <= txreset_f_r;
......@@ -284,7 +289,10 @@ always @ (posedge clk or posedge extrst)
assign rst = rst_r;
always @ (posedge clk or posedge extrst)
if (extrst) rst_r <= 1;
else rst_r <= ~|rst_timer ? 1'b0 : sata_reset_done ? 1'b0 : 1'b1;
else if (~|rst_timer) rst_r <= 0;
else rst_r <= !sata_reset_done;
// else rst_r <= ~|rst_timer ? 1'b0 : sata_reset_done ? 1'b0 : 1'b1;
assign sata_reset_done = rst_timer == RST_TIMER_LIMIT;
......@@ -389,44 +397,47 @@ gtx_wrap #(
)
gtx_wrap
(
.debug (debug_cnt[11]),
.cplllock (cplllock),
.cplllockdetclk (cplllockdetclk),
.cpllreset (cpllreset),
.gtrefclk (gtrefclk),
.drpclk (drpclk),
.rxuserrdy (rxuserrdy),
.txuserrdy (txuserrdy),
.rxusrclk (rxusrclk),
.rxusrclk2 (rxusrclk2),
.rxp (rxp),
.rxn (rxn),
.rxbyteisaligned (rxbyteisaligned),
.rxreset (rxreset),
.rxcomwakedet (rxcomwakedet),
.rxcominitdet (rxcominitdet),
.rxelecidle (rxelecidle),
.rxresetdone (rxresetdone),
.txreset (txreset),
.txusrclk (txusrclk),
.txusrclk2 (txusrclk2),
.txelecidle (txelecidle),
.txp (txp),
.txn (txn),
.txoutclk (txoutclk),
.txpcsreset (txpcsreset),
.txresetdone (txresetdone),
.txcominit (txcominit),
.txcomwake (txcomwake),
.rxelsfull (rxelsfull),
.rxelsempty (rxelsempty),
.txdata (txdata),
.txcharisk (txcharisk),
.rxdata (rxdata),
.rxcharisk (rxcharisk),
.rxdisperr (rxdisperr),
.rxnotintable (rxnotintable)
.debug (debug_cnt[11]), // output reg
.cplllock (cplllock), // output wire
.cplllockdetclk (cplllockdetclk), // input wire
.cpllreset (cpllreset), // input wire
.gtrefclk (gtrefclk), // input wire
.drpclk (drpclk), // input wire
.rxuserrdy (rxuserrdy), // input wire
.txuserrdy (txuserrdy), // input wire
.rxusrclk (rxusrclk), // input wire
.rxusrclk2 (rxusrclk2), // input wire
.rxp (rxp), // input wire
.rxn (rxn), // input wire
.rxbyteisaligned (rxbyteisaligned), // output wire
.rxreset (rxreset), // input wire
.rxcomwakedet (rxcomwakedet), // output wire
.rxcominitdet (rxcominitdet), // output wire
.rxelecidle (rxelecidle), // output wire
.rxresetdone (rxresetdone), // output wire
.txreset (txreset), // input wire
.txusrclk (txusrclk), // input wire
.txusrclk2 (txusrclk2), // input wire
.txelecidle (txelecidle), // input wire
.txp (txp), // output wire
.txn (txn), // output wire
.txoutclk (txoutclk), // output wire
.txpcsreset (txpcsreset), // input wire
.txresetdone (txresetdone), // output wire
.txcominit (txcominit), // input wire
.txcomwake (txcomwake), // input wire
.rxelsfull (rxelsfull), // output wire
.rxelsempty (rxelsempty), // output wire
.txdata (txdata), // input [31:0] wire
.txcharisk (txcharisk), // input [3:0] wire
.rxdata (rxdata), // output[31:0] wire
.rxcharisk (rxcharisk), // output[3:0] wire
.rxdisperr (rxdisperr), // output[3:0] wire
.rxnotintable (rxnotintable) // output[3:0] wire
);
/*
* Interfaces
*/
......
/*******************************************************************************
* Module: tb_ahci
* Date: 2015-07-11
* Author: Alexey
* Description: testbench for ahci_top.v
*
* Copyright (c) 2015 Elphel, Inc.
* tb_ahci.tf is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* tb_ahci.tf file is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/> .
*
* Additional permission under GNU GPL version 3 section 7:
* If you modify this Program, or any covered work, by linking or combining it
* with independent modules provided by the FPGA vendor only (this permission
* does not extend to any 3-rd party modules, "soft cores" or macros) under
* different license terms solely for the purpose of generating binary "bitstream"
* files and/or simulating the code, the copyright holders of this Program give
* you the right to distribute the covered work without those independent modules
* as long as the source code for them is available from the FPGA vendor free of
* charge, and there is no dependence on any encrypted modules for simulating of
* the combined code. This permission applies to you if the distributed code
* contains all the components and scripts required to completely simulate it
* with at least one of the Free Software programs.
*******************************************************************************/
// global defines
`define IVERILOG
`define SIMULATION
`define OPEN_SOURCE_ONLY
`define PRELOAD_BRAMS
`define CHECKERS_ENABLED
`define use200Mhz 1
/*
* using x393_testbench01.tf style, contains a lot of copy-pasted code from there
*/
`timescale 1ns/1ps
//`include "top.v"
//`include "sata_device.v"
module tb_ahci #(
`include "includes/x393_parameters.vh" // SuppressThisWarning VEditor - partially used
`include "includes/x393_simulation_parameters.vh" // SuppressThisWarning VEditor - partially used
)
(
);
`ifdef IVERILOG
`include "IVERILOG_INCLUDE.v"
`else // IVERILOG
`ifdef CVC
`include "IVERILOG_INCLUDE.v"
`else
parameter fstname = "x393_sata.fst";
`endif // CVC
`endif // IVERILOG
reg [639:0] TESTBENCH_TITLE = "RESET"; // to show human-readable state in the GTKWave
reg [31:0] TESTBENCH_DATA;
reg [11:0] TESTBENCH_ID;
initial #1 $display("HI THERE");
initial
begin
$dumpfile(fstname);
$dumpvars(0, tb_ahci); // SuppressThisWarning VEditor - no idea why here was a warning
$dumpvars(0, glbl); // SuppressThisWarning VEditor - no idea why here was a warning
end
reg EXTCLK_P = 1'b1;
reg EXTCLK_N = 1'b0;
//reg serial_clk = 1'b1;
reg [11:0] ARID_IN_r;
reg [31:0] ARADDR_IN_r;
reg [3:0] ARLEN_IN_r;
reg [1:0] ARSIZE_IN_r;
reg [1:0] ARBURST_IN_r;
reg [11:0] AWID_IN_r;
reg [31:0] AWADDR_IN_r;
reg [3:0] AWLEN_IN_r;
reg [1:0] AWSIZE_IN_r;
reg [1:0] AWBURST_IN_r;
reg [11:0] WID_IN_r;
reg [31:0] WDATA_IN_r;
reg [3:0] WSTRB_IN_r;
reg WLAST_IN_r;
reg DEBUG1, DEBUG2, DEBUG3; // SuppressThisWarnings VEditor not used, just for simulation (inside included tasks)
reg [11:0] GLOBAL_WRITE_ID=0;
reg [11:0] GLOBAL_READ_ID=0;
reg [11:0] LAST_ARID; // last issued ARID
wire [SIMUL_AXI_READ_WIDTH-1:0] SIMUL_AXI_ADDR_W;
//wire SIMUL_AXI_MISMATCH;
// SuppressWarnings VEditor
reg [31:0] SIMUL_AXI_READ;
// SuppressWarnings VEditor
reg [SIMUL_AXI_READ_WIDTH-1:0] SIMUL_AXI_ADDR;
// SuppressWarnings VEditor
reg SIMUL_AXI_FULL; // some data available
wire SIMUL_AXI_EMPTY; // SuppressThisWarnings VEditor not used, just for simulation
reg [31:0] registered_rdata; // here read data from task SuppressThisWarnings VEditor not used, just for simulation
reg CLK;
//wire CLK;
//reg RST;
tri0 RST = glbl.GSR;
reg AR_SET_CMD_r;
wire AR_READY;
reg AW_SET_CMD_r;
wire AW_READY;
reg W_SET_CMD_r;
wire W_READY;
reg [3:0] RD_LAG; // ready signal lag in axi read channel (0 - RDY=1, 1..15 - RDY is asserted N cycles after valid)
reg [3:0] B_LAG; // ready signal lag in axi arete response channel (0 - RDY=1, 1..15 - RDY is asserted N cycles after valid)
// Simulation modules interconnection
wire [31:0] rdata;
wire [11:0] rid;
wire rlast;
wire [1:0] rresp; // SuppressThisWarnings VEditor not used, just for simulation
wire rvalid;
wire rready;
wire rstb=rvalid && rready;
wire [1:0] bresp; // SuppressThisWarnings VEditor not used, just for simulation
wire [11:0] bid; // SuppressThisWarnings VEditor not used, just for simulation
wire bvalid;
wire bready;
integer NUM_WORDS_READ;
integer NUM_WORDS_EXPECTED;
// integer SCANLINE_CUR_X;
// integer SCANLINE_CUR_Y;
wire AXI_RD_EMPTY=NUM_WORDS_READ==NUM_WORDS_EXPECTED; //SuppressThisWarning VEditor : may be unused, just for simulation
assign SIMUL_AXI_EMPTY= ~rvalid && rready && (rid==LAST_ARID); //SuppressThisWarning VEditor : may be unused, just for simulation // use it to wait for?
wire [11:0] #(AXI_TASK_HOLD) ARID_IN = ARID_IN_r;
wire [31:0] #(AXI_TASK_HOLD) ARADDR_IN = ARADDR_IN_r;
wire [3:0] #(AXI_TASK_HOLD) ARLEN_IN = ARLEN_IN_r;
wire [1:0] #(AXI_TASK_HOLD) ARSIZE_IN = ARSIZE_IN_r;
wire [1:0] #(AXI_TASK_HOLD) ARBURST_IN = ARBURST_IN_r;
wire [11:0] #(AXI_TASK_HOLD) AWID_IN = AWID_IN_r;
wire [31:0] #(AXI_TASK_HOLD) AWADDR_IN = AWADDR_IN_r;
wire [3:0] #(AXI_TASK_HOLD) AWLEN_IN = AWLEN_IN_r;
wire [1:0] #(AXI_TASK_HOLD) AWSIZE_IN = AWSIZE_IN_r;
wire [1:0] #(AXI_TASK_HOLD) AWBURST_IN = AWBURST_IN_r;
wire [11:0] #(AXI_TASK_HOLD) WID_IN = WID_IN_r;
wire [31:0] #(AXI_TASK_HOLD) WDATA_IN = WDATA_IN_r;
wire [ 3:0] #(AXI_TASK_HOLD) WSTRB_IN = WSTRB_IN_r;
wire #(AXI_TASK_HOLD) WLAST_IN = WLAST_IN_r;
wire #(AXI_TASK_HOLD) AR_SET_CMD = AR_SET_CMD_r;
wire #(AXI_TASK_HOLD) AW_SET_CMD = AW_SET_CMD_r;
wire #(AXI_TASK_HOLD) W_SET_CMD = W_SET_CMD_r;
/*
* connect axi ports to the dut
*/
assign dut.ps7_i.FCLKCLK= {4{CLK}};
assign dut.ps7_i.FCLKRESETN= {RST,~RST,RST,~RST};
// Read data
assign rdata= dut.ps7_i.MAXIGP1RDATA;
assign rvalid= dut.ps7_i.MAXIGP1RVALID;
assign dut.ps7_i.MAXIGP1RREADY= rready;
assign rid= dut.ps7_i.MAXIGP1RID;
assign rlast= dut.ps7_i.MAXIGP1RLAST;
assign rresp= dut.ps7_i.MAXIGP1RRESP;
// Write response
assign bvalid= dut.ps7_i.MAXIGP1BVALID;
assign dut.ps7_i.MAXIGP1BREADY= bready;
assign bid= dut.ps7_i.MAXIGP1BID;
assign bresp= dut.ps7_i.MAXIGP1BRESP;
// Simulation modules
simul_axi_master_rdaddr
#(
.ID_WIDTH (12),
.ADDRESS_WIDTH (32),
.LATENCY (AXI_RDADDR_LATENCY), // minimal delay between inout and output ( 0 - next cycle)
.DEPTH (8), // maximal number of commands in FIFO
.DATA_DELAY (3.5),
.VALID_DELAY (4.0)
) simul_axi_master_rdaddr_i (
.clk (CLK), // input
.reset (RST), // input
.arid_in (ARID_IN[11:0]), // input[11:0]
.araddr_in (ARADDR_IN[31:0]), // input[31:0]
.arlen_in (ARLEN_IN[3:0]), // input[3:0]
.arsize_in (ARSIZE_IN[1:0]), // input[1:0]
.arburst_in (ARBURST_IN[1:0]), // input[1:0]
.arcache_in (4'b0), // input[3:0]
.arprot_in (3'b0), // input[2:0]// .arprot_in(2'b0),
.arid (dut.ps7_i.MAXIGP1ARID[11:0]), // output[11:0]
.araddr (dut.ps7_i.MAXIGP1ARADDR[31:0]), // output[31:0]
.arlen (dut.ps7_i.MAXIGP1ARLEN[3:0]), // output[3:0]
.arsize (dut.ps7_i.MAXIGP1ARSIZE[1:0]), // output[1:0]
.arburst (dut.ps7_i.MAXIGP1ARBURST[1:0]), // output[1:0]
.arcache (dut.ps7_i.MAXIGP1ARCACHE[3:0]), // output3:0]
.arprot (dut.ps7_i.MAXIGP1ARPROT[2:0]), // output[2:0]
.arvalid (dut.ps7_i.MAXIGP1ARVALID), // output
.arready (dut.ps7_i.MAXIGP1ARREADY), // input
.set_cmd (AR_SET_CMD), // input// latch all other input data at posedge of clock
.ready (AR_READY) // command/data FIFO can accept command
);
simul_axi_master_wraddr
#(
.ID_WIDTH (12),
.ADDRESS_WIDTH (32),
.LATENCY (AXI_WRADDR_LATENCY), // minimal delay between inout and output ( 0 - next cycle)
.DEPTH (8), // maximal number of commands in FIFO
.DATA_DELAY (3.5),
.VALID_DELAY (4.0)
) simul_axi_master_wraddr_i (
.clk (CLK), // input
.reset (RST), // input
.awid_in (AWID_IN[11:0]), // input[11:0]
.awaddr_in (AWADDR_IN[31:0]), // input[31:0]
.awlen_in (AWLEN_IN[3:0]), // input[3:0]
.awsize_in (AWSIZE_IN[1:0]), // input[2:0]
.awburst_in (AWBURST_IN[1:0]), // input[1:0]
.awcache_in (4'b0), // input[1:0]
.awprot_in (3'b0), // input[2:0]//.awprot_in(2'b0),
.awid (dut.ps7_i.MAXIGP1AWID[11:0]), // output[11:0]
.awaddr (dut.ps7_i.MAXIGP1AWADDR[31:0]), // output[31:0]
.awlen (dut.ps7_i.MAXIGP1AWLEN[3:0]), // output[31:0]
.awsize (dut.ps7_i.MAXIGP1AWSIZE[1:0]), // output[2:0]
.awburst (dut.ps7_i.MAXIGP1AWBURST[1:0]), // output[1:0]
.awcache (dut.ps7_i.MAXIGP1AWCACHE[3:0]), // output[3:0]
.awprot (dut.ps7_i.MAXIGP1AWPROT[2:0]), // output[2:0]
.awvalid (dut.ps7_i.MAXIGP1AWVALID), // output
.awready (dut.ps7_i.MAXIGP1AWREADY), // input
.set_cmd (AW_SET_CMD), // input // latch all other input data at posedge of clock
.ready (AW_READY) // output// command/data FIFO can accept command
);
simul_axi_master_wdata #(
.ID_WIDTH (12),
.DATA_WIDTH (32),
.WSTB_WIDTH (4),
.LATENCY (AXI_WRDATA_LATENCY), // minimal delay between inout and output ( 0 - next cycle)
.DEPTH (8), // maximal number of commands in FIFO
.DATA_DELAY(3.2),
.VALID_DELAY(3.6)
) simul_axi_master_wdata_i (
.clk (CLK), // input
.reset (RST), // input
.wid_in (WID_IN[11:0]), // input[11:0]
.wdata_in (WDATA_IN[31:0]), // input[31:0]
.wstrb_in (WSTRB_IN[3:0]), // input[3:0]
.wlast_in (WLAST_IN), // input
.wid (dut.ps7_i.MAXIGP1WID[11:0]), // output[11:0]
.wdata (dut.ps7_i.MAXIGP1WDATA[31:0]), // output[31:0]
.wstrb (dut.ps7_i.MAXIGP1WSTRB[3:0]), // output[3:0]
.wlast (dut.ps7_i.MAXIGP1WLAST), // output
.wvalid (dut.ps7_i.MAXIGP1WVALID), // output
.wready (dut.ps7_i.MAXIGP1WREADY), // input
.set_cmd (W_SET_CMD), // input // latch all other input data at posedge of clock
.ready (W_READY) // output // command/data FIFO can accept command
);
simul_axi_read #(
.ADDRESS_WIDTH (SIMUL_AXI_READ_WIDTH)
) simul_axi_read_i(
.clk (CLK), // input
.reset (RST), // input
.last (rlast), // input
.data_stb (rstb), // input
.raddr (ARADDR_IN[SIMUL_AXI_READ_WIDTH+1:2]), // input[9:0]
.rlen (ARLEN_IN), // input[3:0]
.rcmd (AR_SET_CMD), // input
.addr_out (SIMUL_AXI_ADDR_W[SIMUL_AXI_READ_WIDTH-1:0]), // output[9:0]
.burst (), // output // burst in progress - just debug
.err_out ()); // output reg // data last does not match predicted or FIFO over/under run - just debug
simul_axi_slow_ready simul_axi_slow_ready_read_i(
.clk(CLK),
.reset(RST), //input reset,
.delay(RD_LAG), //input [3:0] delay,
.valid(rvalid), // input valid,
.ready(rready) //output ready
);
simul_axi_slow_ready simul_axi_slow_ready_write_resp_i(
.clk(CLK),
.reset(RST), //input reset,
.delay(B_LAG), //input [3:0] delay,
.valid(bvalid), // input ADDRESS_NUMBER+2:0 valid,
.ready(bready) //output ready
);
// device-under-test instance
wire rxn;
wire rxp;
wire txn;
wire txp;
wire device_rst;
top dut(
.RXN (rxn),
.RXP (rxp),
.TXN (txn),
.TXP (txp),
.EXTCLK_P (EXTCLK_P),
.EXTCLK_N (EXTCLK_N)
);
assign device_rst = dut.axi_rst;
sata_device dev(
.rst (device_rst),
.RXN (txn),
.RXP (txp),
.TXN (rxn),
.TXP (rxp),
.EXTCLK_P (EXTCLK_P),
.EXTCLK_N (EXTCLK_N)
);
// SAXI HP interface
// axi_hp simulation signals
wire HCLK;
wire [31:0] afi_sim_rd_address; // output[31:0]
wire [ 5:0] afi_sim_rid; // output[5:0] SuppressThisWarning VEditor - not used - just view
// reg afi_sim_rd_valid; // input
wire afi_sim_rd_valid; // input
wire afi_sim_rd_ready; // output
// reg [63:0] afi_sim_rd_data; // input[63:0]
wire [63:0] afi_sim_rd_data; // input[63:0]
wire [ 2:0] afi_sim_rd_cap; // output[2:0] SuppressThisWarning VEditor - not used - just view
wire [ 3:0] afi_sim_rd_qos; // output[3:0] SuppressThisWarning VEditor - not used - just view
wire [ 1:0] afi_sim_rd_resp; // input[1:0]
// reg [ 1:0] afi_sim_rd_resp; // input[1:0]
wire [31:0] afi_sim_wr_address; // output[31:0] SuppressThisWarning VEditor - not used - just view
wire [ 5:0] afi_sim_wid; // output[5:0] SuppressThisWarning VEditor - not used - just view
wire afi_sim_wr_valid; // output
wire afi_sim_wr_ready; // input
// reg afi_sim_wr_ready; // input
wire [63:0] afi_sim_wr_data; // output[63:0] SuppressThisWarning VEditor - not used - just view
wire [ 7:0] afi_sim_wr_stb; // output[7:0] SuppressThisWarning VEditor - not used - just view
wire [ 3:0] afi_sim_bresp_latency; // input[3:0]
// reg [ 3:0] afi_sim_bresp_latency; // input[3:0]
wire [ 2:0] afi_sim_wr_cap; // output[2:0] SuppressThisWarning VEditor - not used - just view
wire [ 3:0] afi_sim_wr_qos; // output[3:0] SuppressThisWarning VEditor - not used - just view
assign HCLK = dut.ps7_i.SAXIHP3ACLK; // shortcut name
// afi loopback
assign #1 afi_sim_rd_data= afi_sim_rd_ready?{2'h0,afi_sim_rd_address[31:3],1'h1, 2'h0,afi_sim_rd_address[31:3],1'h0}:64'bx;
assign #1 afi_sim_rd_valid = afi_sim_rd_ready;
assign #1 afi_sim_rd_resp = afi_sim_rd_ready?2'b0:2'bx;
assign #1 afi_sim_wr_ready = afi_sim_wr_valid;
assign #1 afi_sim_bresp_latency=4'h5;
// axi_hp register access
// PS memory mapped registers to read/write over a separate simulation bus running at HCLK, no waits
reg [31:0] PS_REG_ADDR;
reg PS_REG_WR;
reg PS_REG_RD;
reg PS_REG_WR1;
reg PS_REG_RD1;
reg [31:0] PS_REG_DIN;
wire [31:0] PS_REG_DOUT;
wire [31:0] PS_REG_DOUT1;
reg [31:0] PS_RDATA; // SuppressThisWarning VEditor - not used - just view
/*
reg [31:0] afi_reg_addr;
reg afi_reg_wr;
reg afi_reg_rd;
reg [31:0] afi_reg_din;
wire [31:0] afi_reg_dout;
reg [31:0] AFI_REG_RD; // SuppressThisWarning VEditor - not used - just view
*/
initial begin
PS_REG_ADDR <= 'bx;
PS_REG_WR <= 0;
PS_REG_RD <= 0;
PS_REG_WR1 <= 0;
PS_REG_RD1 <= 0;
PS_REG_DIN <= 'bx;
PS_RDATA <= 'bx;
end
always @ (posedge HCLK) begin
if (PS_REG_RD) PS_RDATA <= PS_REG_DOUT;
else if (PS_REG_RD1) PS_RDATA <= PS_REG_DOUT1;
end
simul_axi_hp_rd #(
.HP_PORT(3)
) simul_axi_hp_rd_i (
.rst (RST), // input
.aclk (dut.ps7_i.SAXIHP3ACLK), // input
.aresetn (), // output
.araddr (dut.ps7_i.SAXIHP3ARADDR[31:0]), // input[31:0]
.arvalid (dut.ps7_i.SAXIHP3ARVALID), // input
.arready (dut.ps7_i.SAXIHP3ARREADY), // output
.arid (dut.ps7_i.SAXIHP3ARID), // input[5:0]
.arlock (dut.ps7_i.SAXIHP3ARLOCK), // input[1:0]
.arcache (dut.ps7_i.SAXIHP3ARCACHE), // input[3:0]
.arprot (dut.ps7_i.SAXIHP3ARPROT), // input[2:0]
.arlen (dut.ps7_i.SAXIHP3ARLEN), // input[3:0]
.arsize (dut.ps7_i.SAXIHP3ARSIZE), // input[2:0]
.arburst (dut.ps7_i.SAXIHP3ARBURST), // input[1:0]
.arqos (dut.ps7_i.SAXIHP3ARQOS), // input[3:0]
.rdata (dut.ps7_i.SAXIHP3RDATA), // output[63:0]
.rvalid (dut.ps7_i.SAXIHP3RVALID), // output
.rready (dut.ps7_i.SAXIHP3RREADY), // input
.rid (dut.ps7_i.SAXIHP3RID), // output[5:0]
.rlast (dut.ps7_i.SAXIHP3RLAST), // output
.rresp (dut.ps7_i.SAXIHP3RRESP), // output[1:0]
.rcount (dut.ps7_i.SAXIHP3RCOUNT), // output[7:0]
.racount (dut.ps7_i.SAXIHP3RACOUNT), // output[2:0]
.rdissuecap1en (dut.ps7_i.SAXIHP3RDISSUECAP1EN), // input
.sim_rd_address (afi_sim_rd_address), // output[31:0]
.sim_rid (afi_sim_rid), // output[5:0]
.sim_rd_valid (afi_sim_rd_valid), // input
.sim_rd_ready (afi_sim_rd_ready), // output
.sim_rd_data (afi_sim_rd_data), // input[63:0]
.sim_rd_cap (afi_sim_rd_cap), // output[2:0]
.sim_rd_qos (afi_sim_rd_qos), // output[3:0]
.sim_rd_resp (afi_sim_rd_resp), // input[1:0]
.reg_addr (PS_REG_ADDR), // input[31:0]
.reg_wr (PS_REG_WR), // input
.reg_rd (PS_REG_RD), // input
.reg_din (PS_REG_DIN), // input[31:0]
.reg_dout (PS_REG_DOUT) // output[31:0]
);
simul_axi_hp_wr #(
.HP_PORT(3)
) simul_axi_hp_wr_i (
.rst (RST), // input
.aclk (dut.ps7_i.SAXIHP3ACLK), // input
.aresetn (), // output
.awaddr (dut.ps7_i.SAXIHP3AWADDR), // input[31:0]
.awvalid (dut.ps7_i.SAXIHP3AWVALID), // input
.awready (dut.ps7_i.SAXIHP3AWREADY), // output
.awid (dut.ps7_i.SAXIHP3AWID), // input[5:0]
.awlock (dut.ps7_i.SAXIHP3AWLOCK), // input[1:0]
.awcache (dut.ps7_i.SAXIHP3AWCACHE), // input[3:0]
.awprot (dut.ps7_i.SAXIHP3AWPROT), // input[2:0]
.awlen (dut.ps7_i.SAXIHP3AWLEN), // input[3:0]
.awsize (dut.ps7_i.SAXIHP3AWSIZE), // input[2:0]
.awburst (dut.ps7_i.SAXIHP3AWBURST), // input[1:0]
.awqos (dut.ps7_i.SAXIHP3AWQOS), // input[3:0]
.wdata (dut.ps7_i.SAXIHP3WDATA), // input[63:0]
.wvalid (dut.ps7_i.SAXIHP3WVALID), // input
.wready (dut.ps7_i.SAXIHP3WREADY), // output
.wid (dut.ps7_i.SAXIHP3WID), // input[5:0]
.wlast (dut.ps7_i.SAXIHP3WLAST), // input
.wstrb (dut.ps7_i.SAXIHP3WSTRB), // input[7:0]
.bvalid (dut.ps7_i.SAXIHP3BVALID), // output
.bready (dut.ps7_i.SAXIHP3BREADY), // input
.bid (dut.ps7_i.SAXIHP3BID), // output[5:0]
.bresp (dut.ps7_i.SAXIHP3BRESP), // output[1:0]
.wcount (dut.ps7_i.SAXIHP3WCOUNT), // output[7:0]
.wacount (dut.ps7_i.SAXIHP3WACOUNT), // output[5:0]
.wrissuecap1en (dut.ps7_i.SAXIHP3WRISSUECAP1EN), // input
.sim_wr_address (afi_sim_wr_address), // output[31:0]
.sim_wid (afi_sim_wid), // output[5:0]
.sim_wr_valid (afi_sim_wr_valid), // output
.sim_wr_ready (afi_sim_wr_ready), // input
.sim_wr_data (afi_sim_wr_data), // output[63:0]
.sim_wr_stb (afi_sim_wr_stb), // output[7:0]
.sim_bresp_latency(afi_sim_bresp_latency), // input[3:0]
.sim_wr_cap (afi_sim_wr_cap), // output[2:0]
.sim_wr_qos (afi_sim_wr_qos), // output[3:0]
.reg_addr (PS_REG_ADDR), // input[31:0]
.reg_wr (PS_REG_WR1), // input
.reg_rd (PS_REG_RD1), // input
.reg_din (PS_REG_DIN), // input[31:0]
.reg_dout (PS_REG_DOUT1) // output[31:0]
);
// wire [ 3:0] SIMUL_ADD_ADDR;
always @ (posedge CLK) begin
if (RST) SIMUL_AXI_FULL <=0;
else if (rstb) SIMUL_AXI_FULL <=1;
if (RST) begin
NUM_WORDS_READ <= 0;
end else if (rstb) begin
NUM_WORDS_READ <= NUM_WORDS_READ + 1;
end
if (rstb) begin
SIMUL_AXI_ADDR <= SIMUL_AXI_ADDR_W;
SIMUL_AXI_READ <= rdata;
`ifdef DEBUG_RD_DATA
$display (" Read data (addr:data): 0x%x:0x%x @%t",SIMUL_AXI_ADDR_W,rdata,$time);
`endif
end
end
//tasks
`include "includes/x393_tasks01.vh" // SuppressThisWarning VEditor - partially used
//`include "includes/x393_tasks_afi.vh" // SuppressThisWarning VEditor - partially used
/*
* Monitor maxi bus read data.
* No burst assumed, so we're interested only in 3 signals to monitor on.
* Every time something is on a bus, data and id of a transaction are pushed into a fifo
* Fifo can be read by maxiMonitorPop function. Check if fifo is empty by calling maxiMonitorIsEmpty()
*/
// path to these signals
wire [31:0] maxi_monitor_rdata;
wire [11:0] maxi_monitor_rid;
wire maxi_monitor_rvalid;
assign maxi_monitor_rdata = dut.ps7_i.MAXIGP1RDATA;
assign maxi_monitor_rid = dut.ps7_i.MAXIGP1RID;
assign maxi_monitor_rvalid = dut.ps7_i.MAXIGP1RVALID;
localparam maxi_monitor_fifo_size = 2049;
reg [43:0] maxi_monitor_fifo [maxi_monitor_fifo_size - 1:0];
integer maxi_monitor_raddr = 0;
integer maxi_monitor_waddr = 0;
reg maxi_monitor_fifo_empty = 1;
function maxiMonitorIsEmpty( // SuppressThisWarning VEditor - it's ok
input dummy // SuppressThisWarning VEditor - it's ok
);
begin
maxiMonitorIsEmpty = maxi_monitor_fifo_empty;
end
endfunction
task maxiMonitorPop;
output reg [31:0] data;
output integer id;
begin
if ((maxi_monitor_waddr == maxi_monitor_raddr) && maxi_monitor_fifo_empty) begin
$display("[Testbench] maxiMonitorPop: Trying to pop from an empty fifo");
$finish;
end
data = maxi_monitor_fifo[maxi_monitor_raddr][31:0]; // RDATA
id = maxi_monitor_fifo[maxi_monitor_raddr][43:32]; // RID // SuppressThisWarning VEditor - it's ok
maxi_monitor_raddr = (maxi_monitor_raddr + 1) % maxi_monitor_fifo_size;
if (maxi_monitor_waddr == maxi_monitor_raddr) begin
maxi_monitor_fifo_empty = 1;
end
end
endtask
task maxiMonitorPush;
input [31:0] data;
input [11:0] id;
begin
if (maxi_monitor_raddr == (maxi_monitor_waddr + 1)) begin
$display("[Testbench] maxiMonitorPush: trying to push to a full fifo");
TESTBENCH_TITLE = "trying to push to a full fifo";
$display("[Testbench] maxiMonitorPush %s = %h, id = %h @%t", TESTBENCH_TITLE, $time);
$finish;
end
maxi_monitor_fifo[maxi_monitor_waddr][31:0] = data;
maxi_monitor_fifo[maxi_monitor_waddr][43:32] = id;
maxi_monitor_fifo_empty = 1'b0;
// $display("[Testbench] MAXI: Got data = %h, id = %h", data, id);
TESTBENCH_TITLE = "Got data";
TESTBENCH_DATA = data;
TESTBENCH_ID = id;
$display("[Testbench] MAXI %s = %h, id = %h @%t", TESTBENCH_TITLE, TESTBENCH_DATA, TESTBENCH_ID, $time);
//[Testbench] MAXI: %
maxi_monitor_waddr = (maxi_monitor_waddr + 1) % maxi_monitor_fifo_size;
end
endtask
initial forever @ (posedge CLK) begin
if (~RST) begin
if (maxi_monitor_rvalid) begin
maxiMonitorPush(maxi_monitor_rdata, maxi_monitor_rid);
end
end
end
always #3.333 begin
EXTCLK_P = ~EXTCLK_P;
EXTCLK_N = ~EXTCLK_N;
end
/*
// MAXI clock
always #10
begin
CLK = ~CLK;
end
*/
initial CLK = 0;
always #(CLKIN_PERIOD/2) CLK = ~CLK;
//always #(10) CLK = ~CLK;
// Simulation
`include "includes/ahci_localparams.vh" // SuppressThisWarning VEditor - many unused defines
localparam MAXIGP1 = 32'h80000000; // Start of the MAXIGP1 address range (use ahci_localparams.vh offsets)
task maxigp1_write_single; // address in bytes, not words
input [31:0] address;
input [31:0] data;
begin
axi_write_single(address + MAXIGP1, data);
end
endtask
task maxigp1_read;
input [31:0] address;
begin
read_and_wait (address + MAXIGP1);
end
endtask
task maxigp1_print;
input [31:0] address;
begin
read_and_wait (address + MAXIGP1);
$display ("%x -> %x @ %t",address + MAXIGP1, registered_rdata,$time);
end
endtask
initial begin
wait (!RST);
//reg [639:0] TESTBENCH_TITLE = "RESET"; // to show human-readable state in the GTKWave
TESTBENCH_TITLE = "NO_RESET";
$display("[Testbench]: %s @%t", TESTBENCH_TITLE, $time);
repeat (10) begin
@ (posedge CLK);
end
axi_set_rd_lag(0);
axi_set_b_lag(0);
maxigp1_print(PCI_Header__CAP__CAP__ADDR);
maxigp1_print(GHC__PI__PI__ADDR);
maxigp1_print(HBA_PORT__PxCMD__ICC__ADDR);
// $finish;
end
initial begin
// #30000;
#50000;
// #250000;
// #60000;
$display("finish testbench 2");
$finish;
end
// testing itself
//`include "test_top.v" // S uppressThisWarning VEditor - to avoid strange warnings
endmodule
//`include "x393/glbl.v" // SuppressThisWarning VEditor - duplicate module
......@@ -88,12 +88,12 @@ reg EXTCLK_N = 1'b0;
reg [11:0] ARID_IN_r;
reg [31:0] ARADDR_IN_r;
reg [3:0] ARLEN_IN_r;
reg [2:0] ARSIZE_IN_r;
reg [1:0] ARSIZE_IN_r;
reg [1:0] ARBURST_IN_r;
reg [11:0] AWID_IN_r;
reg [31:0] AWADDR_IN_r;
reg [3:0] AWLEN_IN_r;
reg [2:0] AWSIZE_IN_r;
reg [1:0] AWSIZE_IN_r;
reg [1:0] AWBURST_IN_r;
reg [11:0] WID_IN_r;
......@@ -135,7 +135,7 @@ reg [3:0] B_LAG; // ready signal lag in axi arete response channel (0 - RDY=1
wire [11:0] arid;
wire [31:0] araddr;
wire [3:0] arlen;
wire [2:0] arsize;
wire [1:0] arsize;
wire [1:0] arburst;
// SuppressWarnings VEditor : assigned in $readmem(14) system task
wire [3:0] arcache;
......@@ -147,7 +147,7 @@ wire arready;
wire [11:0] awid;
wire [31:0] awaddr;
wire [3:0] awlen;
wire [2:0] awsize;
wire [1:0] awsize;
wire [1:0] awburst;
// SuppressWarnings VEditor : assigned in $readmem() system task
wire [3:0] awcache;
......@@ -190,12 +190,12 @@ assign SIMUL_AXI_EMPTY= ~rvalid && rready && (rid==LAST_ARID); //SuppressThisWa
wire [11:0] #(AXI_TASK_HOLD) ARID_IN = ARID_IN_r;
wire [31:0] #(AXI_TASK_HOLD) ARADDR_IN = ARADDR_IN_r;
wire [3:0] #(AXI_TASK_HOLD) ARLEN_IN = ARLEN_IN_r;
wire [2:0] #(AXI_TASK_HOLD) ARSIZE_IN = ARSIZE_IN_r;
wire [1:0] #(AXI_TASK_HOLD) ARSIZE_IN = ARSIZE_IN_r;
wire [1:0] #(AXI_TASK_HOLD) ARBURST_IN = ARBURST_IN_r;
wire [11:0] #(AXI_TASK_HOLD) AWID_IN = AWID_IN_r;
wire [31:0] #(AXI_TASK_HOLD) AWADDR_IN = AWADDR_IN_r;
wire [3:0] #(AXI_TASK_HOLD) AWLEN_IN = AWLEN_IN_r;
wire [2:0] #(AXI_TASK_HOLD) AWSIZE_IN = AWSIZE_IN_r;
wire [1:0] #(AXI_TASK_HOLD) AWSIZE_IN = AWSIZE_IN_r;
wire [1:0] #(AXI_TASK_HOLD) AWBURST_IN = AWBURST_IN_r;
wire [11:0] #(AXI_TASK_HOLD) WID_IN = WID_IN_r;
wire [31:0] #(AXI_TASK_HOLD) WDATA_IN = WDATA_IN_r;
......@@ -277,14 +277,14 @@ simul_axi_master_rdaddr
.arid_in(ARID_IN[11:0]),
.araddr_in(ARADDR_IN[31:0]),
.arlen_in(ARLEN_IN[3:0]),
.arsize_in(ARSIZE_IN[2:0]),
.arsize_in(ARSIZE_IN[1:0]),
.arburst_in(ARBURST_IN[1:0]),
.arcache_in(4'b0),
.arprot_in(3'b0), // .arprot_in(2'b0),
.arid(arid[11:0]),
.araddr(araddr[31:0]),
.arlen(arlen[3:0]),
.arsize(arsize[2:0]),
.arsize(arsize[1:0]),
.arburst(arburst[1:0]),
.arcache(arcache[3:0]),
.arprot(arprot[2:0]),
......@@ -308,14 +308,14 @@ simul_axi_master_wraddr
.awid_in(AWID_IN[11:0]),
.awaddr_in(AWADDR_IN[31:0]),
.awlen_in(AWLEN_IN[3:0]),
.awsize_in(AWSIZE_IN[2:0]),
.awsize_in(AWSIZE_IN[1:0]),
.awburst_in(AWBURST_IN[1:0]),
.awcache_in(4'b0),
.awprot_in(3'b0), //.awprot_in(2'b0),
.awid(awid[11:0]),
.awaddr(awaddr[31:0]),
.awlen(awlen[3:0]),
.awsize(awsize[2:0]),
.awsize(awsize[1:0]),
.awburst(awburst[1:0]),
.awcache(awcache[3:0]),
.awprot(awprot[2:0]),
......
[*]
[*] GTKWave Analyzer v3.3.66 (w)1999-2015 BSI
[*] Sat Jan 23 07:05:52 2016
[*]
[dumpfile] "/home/andrey/git/x393_sata/simulation/tb_ahci-20160122235411900.fst"
[dumpfile_mtime] "Sat Jan 23 06:55:08 2016"
[dumpfile_size] 6269364
[savefile] "/home/andrey/git/x393_sata/tb_ahci_01.sav"
[timestart] 0
[size] 1823 1173
[pos] 1942 0
*-21.079729 6065536 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1 -1
[treeopen] tb_ahci.
[treeopen] tb_ahci.dut.
[treeopen] tb_ahci.dut.axi_hp_clk_i.
[treeopen] tb_ahci.dut.sata_top.
[treeopen] tb_ahci.dut.sata_top.ahci_sata_layers_i.
[treeopen] tb_ahci.dut.sata_top.ahci_sata_layers_i.link.
[treeopen] tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.
[treeopen] tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.oob_ctrl.
[treeopen] tb_ahci.dut.sata_top.ahci_top_i.
[treeopen] tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.
[treeopen] tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.
[treeopen] tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.axibram_read_i.
[sst_width] 402
[signals_width] 245
[sst_expanded] 1
[sst_vpaned_height] 621
@820
tb_ahci.TESTBENCH_TITLE[639:0]
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.oob_ctrl.oob.HOST_OOB_TITLE[639:0]
@28
tb_ahci.CLK
tb_ahci.RST
@22
tb_ahci.read_and_wait.address[31:0]
@28
tb_ahci.dut.TXN
tb_ahci.dut.RXN
@800200
-axi_ahci_regs
@28
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.aclk
@c00200
-axibram_read
@22
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.axibram_read_i.araddr[31:0]
@28
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.axibram_read_i.arvalid
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.axibram_read_i.arready
@22
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.axibram_read_i.bram_raddr[9:0]
@28
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.axibram_read_i.dev_ready
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.axibram_read_i.start_burst
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.axibram_read_i.bram_ren
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.axibram_read_i.bram_regen
@22
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.axibram_read_i.bram_rdata[31:0]
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.axibram_read_i.rdata[31:0]
@28
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.axibram_read_i.rready
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.axibram_read_i.rvalid
tb_ahci.dut.sata_top.RREADY
tb_ahci.dut.ps7_i.MAXIGP1RREADY
tb_ahci.dut.ps7_i.MAXIGP1RVALID
tb_ahci.rready
tb_ahci.rvalid
tb_ahci.rstb
@200
-
@1401200
-axibram_read
@1000200
-axi_ahci_regs
@800200
-ahci_sata_layers
@28
tb_ahci.dut.sata_top.ahci_sata_layers_i.exrst
tb_ahci.dut.sata_top.ahci_sata_layers_i.reliable_clk
tb_ahci.dut.sata_top.ahci_sata_layers_i.extclk_n
tb_ahci.dut.sata_top.ahci_sata_layers_i.rst
tb_ahci.dut.sata_top.ahci_sata_layers_i.clk
@200
-
@1000200
-ahci_sata_layers
@800200
-ahci_top
@28
tb_ahci.dut.sata_top.ahci_top_i.port_arst
tb_ahci.dut.sata_top.ahci_top_i.hba_arst
tb_ahci.dut.sata_top.ahci_top_i.phy_ready[1:0]
@1000200
-ahci_top
@800200
-axi_ahci_regs
@22
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.hba_reset_cntr[8:0]
@28
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.hba_arst
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.port_arst
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.port_arst_any
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.wait_first_access
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.any_access
tb_ahci.dut.sata_top.ahci_top_i.axi_ahci_regs_i.set_port_rst
@1000200
-axi_ahci_regs
@800200
-ahci_fsm
@c00022
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pgm_addr[9:0]
@28
(0)tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pgm_addr[9:0]
(1)tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pgm_addr[9:0]
(2)tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pgm_addr[9:0]
(3)tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pgm_addr[9:0]
(4)tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pgm_addr[9:0]
(5)tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pgm_addr[9:0]
(6)tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pgm_addr[9:0]
(7)tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pgm_addr[9:0]
(8)tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pgm_addr[9:0]
(9)tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pgm_addr[9:0]
@1401200
-group_end
@22
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pgm_data[17:0]
@28
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.fsm_preload
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.fsm_actions
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.fsm_transitions[1:0]
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.fsm_next
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.fsm_wait_act_w
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.fsm_last_act_w
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.cond_met_w
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pre_jump_w
@22
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pgm_jump_addr[9:0]
@800028
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.fsm_jump[2:0]
@28
(0)tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.fsm_jump[2:0]
(1)tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.fsm_jump[2:0]
(2)tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.fsm_jump[2:0]
@1001200
-group_end
@200
-
@28
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pfsm_started
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pxci0_clear
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.clear_bsy_set_drq
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.set_sts_7f
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.set_update_sig
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.comreset_send
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.set_sts_80
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.ssts_det_dnp
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.sirq_PC
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.serr_diag_X
@200
-
@28
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.fis_first_vld
@200
-
@28
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.pcmd_st_cleared
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.cominit_got
@c00028
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.async_pend_r[1:0]
@28
(0)tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.async_pend_r[1:0]
(1)tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.async_pend_r[1:0]
@1401200
-group_end
@28
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.async_ackn
tb_ahci.dut.sata_top.ahci_top_i.ahci_fsm_i.async_from_st
@1000200
-ahci_fsm
@800200
-link
@200
-
@1000200
-link
@800200
-phy
@28
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.comreset_send
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.gtrefclk
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.txoutclk
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.usrclk
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.usrclk2
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.usrpll_locked
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.cpllreset
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.cplllock
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.rxreset_req
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.rxreset_oob
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.rxreset_oob_stop
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.rxreset_oob
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.gtx_ready
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.gtx_configured
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.rxreset_f
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.rxreset
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.gtrefclk
@22
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.rxeyereset_cnt[6:0]
@28
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.rxeyereset_done
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.clk
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.rst_r
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.sata_reset_done
@200
-
@28
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.usrpll_locked
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.cplllock
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.cpllreset
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.rxuserrdy
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.txuserrdy
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.rxresetdone
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.txresetdone
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.gtx_ready
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.txreset
@1000200
-phy
@800200
-oob_ctrl
@28
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.oob_ctrl.gtx_ready
@200
-
@800200
-oob
@200
-
@1000200
-oob
-oob_ctrl
@800200
-gtx
@28
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.gtx_wrap.cpllreset
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.gtx_wrap.cplllock
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.gtx_wrap.cplllockdetclk
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.gtx_wrap.txelecidle
tb_ahci.dut.sata_top.ahci_sata_layers_i.phy.gtx_wrap.txelecidle_gtx
@200
-
@1000200
-gtx
[pattern_trace] 1
[pattern_trace] 0
Markdown is supported
0% or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment