Skip to content
Projects
Groups
Snippets
Help
Loading...
Help
Submit feedback
Contribute to GitLab
Sign in
Toggle navigation
X
x393_sata
Project
Project
Details
Activity
Releases
Cycle Analytics
Repository
Repository
Files
Commits
Branches
Tags
Contributors
Graph
Compare
Charts
Members
Members
Collapse sidebar
Close sidebar
Activity
Graph
Charts
Commits
Open sidebar
Elphel
x393_sata
Commits
507b1bd3
Commit
507b1bd3
authored
Feb 11, 2016
by
Andrey Filippov
Browse files
Options
Browse Files
Download
Email Patches
Plain Diff
more testing with DRP
parent
d7e78d92
Changes
15
Expand all
Show whitespace changes
Inline
Side-by-side
Showing
15 changed files
with
1072 additions
and
110 deletions
+1072
-110
.project
.project
+17
-17
ahci_dma.v
ahci/ahci_dma.v
+7
-1
ahci_fsm.v
ahci/ahci_fsm.v
+4
-1
ahci_sata_layers.v
ahci/ahci_sata_layers.v
+21
-1
ahci_top.v
ahci/ahci_top.v
+21
-3
axi_ahci_regs.v
ahci/axi_ahci_regs.v
+49
-9
sata_ahci_top.v
ahci/sata_ahci_top.v
+34
-6
gtx_wrap.v
host/gtx_wrap.v
+186
-37
sata_phy.v
host/sata_phy.v
+21
-0
sipo_to_xclk_measure.v
host/sipo_to_xclk_measure.v
+156
-0
x393sata.py
py393sata/x393sata.py
+209
-6
system_defines.vh
system_defines.vh
+1
-0
tb_ahci.tf
tb/tb_ahci.tf
+72
-1
tb_ahci_01.sav
tb_ahci_01.sav
+254
-28
GTXE2_GPL.v
wrapper/GTXE2_GPL.v
+20
-0
No files found.
.project
View file @
507b1bd3
...
...
@@ -52,87 +52,87 @@
<link>
<name>
vivado_logs/VivadoBitstream.log
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoBitstream-2016020
8171331975
.log
</location>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoBitstream-2016020
9233437529
.log
</location>
</link>
<link>
<name>
vivado_logs/VivadoOpt.log
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoOpt-2016020
8171331975
.log
</location>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoOpt-2016020
9233437529
.log
</location>
</link>
<link>
<name>
vivado_logs/VivadoOptPhys.log
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoOptPhys-2016020
8171331975
.log
</location>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoOptPhys-2016020
9233437529
.log
</location>
</link>
<link>
<name>
vivado_logs/VivadoOptPower.log
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoOptPower-2016020
8171331975
.log
</location>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoOptPower-2016020
9233437529
.log
</location>
</link>
<link>
<name>
vivado_logs/VivadoPlace.log
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoPlace-2016020
8171331975
.log
</location>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoPlace-2016020
9233437529
.log
</location>
</link>
<link>
<name>
vivado_logs/VivadoRoute.log
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoRoute-2016020
8171331975
.log
</location>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoRoute-2016020
9233437529
.log
</location>
</link>
<link>
<name>
vivado_logs/VivadoSynthesis.log
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoSynthesis-2016020
8171112129
.log
</location>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoSynthesis-2016020
9233314772
.log
</location>
</link>
<link>
<name>
vivado_logs/VivadoTimimgSummaryReportImplemented.log
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoTimimgSummaryReportImplemented-2016020
8171331975
.log
</location>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoTimimgSummaryReportImplemented-2016020
9233437529
.log
</location>
</link>
<link>
<name>
vivado_logs/VivadoTimimgSummaryReportSynthesis.log
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoTimimgSummaryReportSynthesis-2016020
8171112129
.log
</location>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoTimimgSummaryReportSynthesis-2016020
9233314772
.log
</location>
</link>
<link>
<name>
vivado_logs/VivadoTimingReportImplemented.log
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoTimingReportImplemented-2016020
8171331975
.log
</location>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoTimingReportImplemented-2016020
9233437529
.log
</location>
</link>
<link>
<name>
vivado_logs/VivadoTimingReportSynthesis.log
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoTimingReportSynthesis-2016020
8171112129
.log
</location>
<location>
/home/andrey/git/x393_sata/vivado_logs/VivadoTimingReportSynthesis-2016020
9233314772
.log
</location>
</link>
<link>
<name>
vivado_state/x393_sata-opt-phys.dcp
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_state/x393_sata-opt-phys-2016020
8171331975
.dcp
</location>
<location>
/home/andrey/git/x393_sata/vivado_state/x393_sata-opt-phys-2016020
9233437529
.dcp
</location>
</link>
<link>
<name>
vivado_state/x393_sata-opt-power.dcp
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_state/x393_sata-opt-power-2016020
8171331975
.dcp
</location>
<location>
/home/andrey/git/x393_sata/vivado_state/x393_sata-opt-power-2016020
9233437529
.dcp
</location>
</link>
<link>
<name>
vivado_state/x393_sata-opt.dcp
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_state/x393_sata-opt-2016020
8171331975
.dcp
</location>
<location>
/home/andrey/git/x393_sata/vivado_state/x393_sata-opt-2016020
9233437529
.dcp
</location>
</link>
<link>
<name>
vivado_state/x393_sata-place.dcp
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_state/x393_sata-place-2016020
8171331975
.dcp
</location>
<location>
/home/andrey/git/x393_sata/vivado_state/x393_sata-place-2016020
9233437529
.dcp
</location>
</link>
<link>
<name>
vivado_state/x393_sata-route.dcp
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_state/x393_sata-route-2016020
8171331975
.dcp
</location>
<location>
/home/andrey/git/x393_sata/vivado_state/x393_sata-route-2016020
9233437529
.dcp
</location>
</link>
<link>
<name>
vivado_state/x393_sata-synth.dcp
</name>
<type>
1
</type>
<location>
/home/andrey/git/x393_sata/vivado_state/x393_sata-synth-2016020
8171112129
.dcp
</location>
<location>
/home/andrey/git/x393_sata/vivado_state/x393_sata-synth-2016020
9233314772
.dcp
</location>
</link>
</linkedResources>
</projectDescription>
ahci/ahci_dma.v
View file @
507b1bd3
...
...
@@ -273,6 +273,7 @@ module ahci_dma (
reg
abort_rq_mclk
;
reg
abort_busy_mclk
;
wire
[
21
:
0
]
abort_debug
;
reg
rwaddr_rq_r
;
// next cycle after requesting waddr_data_rq, raddr_data_rq, raddr_ct_rq and raddr_prd_rq (*-pend is valid)
assign
afi_wvalid
=
aborting
?
afi_wvalid_abort
:
afi_wvalid_data
;
assign
afi_wid
=
aborting
?
afi_wid_abort
:
afi_id
;
...
...
@@ -380,6 +381,9 @@ module ahci_dma (
always
@
(
posedge
hclk
)
begin
hrst_r
<=
hrst
;
if
(
hrst
)
rwaddr_rq_r
<=
0
;
else
rwaddr_rq_r
<=
raddr_ct_rq
||
raddr_prd_rq
||
raddr_data_rq
||
waddr_data_rq
;
addr_data_rq_r
<=
addr_data_rq_w
;
prd_start_hclk_r
<=
prd_start_hclk
;
...
...
@@ -414,7 +418,9 @@ module ahci_dma (
if
(
hrst
)
{
is_ct_addr
,
is_prd_addr
,
is_data_addr
}
<=
0
;
else
if
(
raddr_ct_rq
||
raddr_prd_rq
||
wcount_set
)
{
is_ct_addr
,
is_prd_addr
,
is_data_addr
}
<=
{
raddr_ct_rq
,
raddr_prd_rq
,
wcount_set
};
if
(
axi_set_raddr_w
||
axi_set_waddr_w
)
begin
/// if (axi_set_raddr_w || axi_set_waddr_w) begin
if
(
rwaddr_rq_r
)
begin
// first cycle one of the *_pend is set
if
(
raddr_data_pend
||
waddr_data_pend
)
afi_addr
<=
{
data_addr
[
31
:
3
]
,
3'b0
};
else
afi_addr
<=
{
ct_maddr
[
31
:
4
]
,
4'b0
};
...
...
ahci/ahci_fsm.v
View file @
507b1bd3
...
...
@@ -266,11 +266,12 @@ module ahci_fsm
// reg [7:0] conditions;
// wire pre_jump_w = (|async_pend_r) ? async_ackn : |(cond_met_w & fsm_transitions[1]);
wire
pre_jump_w
=
(
|
async_pend_r
)
?
async_ackn
:
(
cond_met_w
&
fsm_transitions
[
1
])
;
wire
fsm_act_done
=
get_fis_done
||
wire
fsm_act_done
_w
=
get_fis_done
||
xmit_done
||
(
syncesc_send_pend
&&
syncesc_send_done
)
||
dma_abort_done
||
asynq_rq
;
// cominit_got || pcmd_st_cleared
reg
fsm_act_done
;
// made later by 1 cycle so the new conditions are latched
wire
fsm_wait_act_w
=
pgm_data
[
16
]
;
// this action requires waiting for done
wire
fsm_last_act_w
=
pgm_data
[
17
]
;
...
...
@@ -340,6 +341,8 @@ module ahci_fsm
was_rst
<=
hba_rst
;
fsm_act_done
<=
fsm_act_done_w
;
// delay by 1 clock cycle
fsm_jump
<=
{
fsm_jump
[
1
:
0
]
,
pre_jump_w
|
(
was_rst
&
~
hba_rst
)
};
if
(
fsm_jump
[
0
])
pgm_addr
<=
pgm_jump_addr
;
...
...
ahci/ahci_sata_layers.v
View file @
507b1bd3
...
...
@@ -91,6 +91,16 @@ module ahci_sata_layers #(
output
wire
txn_out
,
input
wire
rxp_in
,
input
wire
rxn_in
,
`ifdef
USE_DRP
input
drp_rst
,
input
drp_clk
,
input
drp_en
,
// @aclk strobes drp_ad
input
drp_we
,
input
[
14
:
0
]
drp_addr
,
input
[
15
:
0
]
drp_di
,
output
drp_rdy
,
output
[
15
:
0
]
drp_do
,
`endif
output
[
31
:
0
]
debug_phy
,
output
[
31
:
0
]
debug_link
...
...
@@ -339,6 +349,16 @@ module ahci_sata_layers #(
.
cplllock_debug
()
,
.
usrpll_locked_debug
()
,
`ifdef
USE_DRP
.
drp_rst
(
drp_rst
)
,
// input
.
drp_clk
(
drp_clk
)
,
// input
.
drp_en
(
drp_en
)
,
// input
.
drp_we
(
drp_we
)
,
// input
.
drp_addr
(
drp_addr
)
,
// input[14:0]
.
drp_di
(
drp_di
)
,
// input[15:0]
.
drp_rdy
(
drp_rdy
)
,
// output
.
drp_do
(
drp_do
)
,
// output[15:0]
`endif
.
debug_sata
(
debug_phy
)
,.
debug_detected_alignp
(
debug_detected_alignp
)
)
;
...
...
ahci/ahci_top.v
View file @
507b1bd3
...
...
@@ -182,6 +182,14 @@ module ahci_top#(
output
irq
,
// CPU interrupt request
`ifdef
USE_DRP
output
drp_en
,
// @aclk strobes drp_ad
output
drp_we
,
output
[
14
:
0
]
drp_addr
,
output
[
15
:
0
]
drp_di
,
input
drp_rdy
,
input
[
15
:
0
]
drp_do
,
`endif
input
[
31
:
0
]
debug_in_phy
,
input
[
31
:
0
]
debug_in_link
...
...
@@ -708,6 +716,16 @@ module ahci_top#(
.
debug_in1
(
debug_dma1
)
,
// debug_in_link), // input[31:0]
.
debug_in2
(
debug_in_phy
)
,
// input[31:0] // debug from phy/link
.
debug_in3
(
{
22'b0
,
last_jump_addr
[
9
:
0
]
}
)
// input[31:0]// Last jump address in the AHDCI sequencer
`ifdef
USE_DRP
,.
drp_en
(
drp_en
)
,
// output reg
.
drp_we
(
drp_we
)
,
// output reg
.
drp_addr
(
drp_addr
)
,
// output[14:0] reg
.
drp_di
(
drp_di
)
,
// output[15:0] reg
.
drp_rdy
(
drp_rdy
)
,
// input
.
drp_do
(
drp_do
)
// input[15:0]
`endif
`ifdef
USE_DATASCOPE
,.
datascope_clk
(
datascope_clk
)
,
// input
.
datascope_waddr
(
datascope_waddr
)
,
// input[9:0]
...
...
@@ -977,7 +995,7 @@ wire [9:0] xmit_dbg_01;
// .hba_rst (mrst), // input TODO: Reset when !PxCMD.ST? pcmd_st
.
hba_rst
(
mrst
||
!
pcmd_st
)
,
// input TODO: Reset when !PxCMD.ST? pcmd_st
.
mclk
(
mclk
)
,
// input
.
pcmd_st_cleared
(
pcmd_st_cleared
)
,
// input
.
fetch_cmd
(
fsnd_fetch_cmd
)
,
// input
.
cfis_xmit
(
fsnd_cfis_xmit
)
,
// input
.
dx_xmit
(
fsnd_dx_xmit
)
,
// input
...
...
ahci/axi_ahci_regs.v
View file @
507b1bd3
...
...
@@ -119,6 +119,14 @@ module axi_ahci_regs#(
input
[
31
:
0
]
debug_in1
,
input
[
31
:
0
]
debug_in2
,
input
[
31
:
0
]
debug_in3
`ifdef
USE_DRP
,
output
reg
drp_en
,
// @aclk strobes drp_ad
output
reg
drp_we
,
output
reg
[
14
:
0
]
drp_addr
,
output
reg
[
15
:
0
]
drp_di
,
input
drp_rdy
,
input
[
15
:
0
]
drp_do
`endif
`ifdef
USE_DATASCOPE
// Datascope interface (write to memory that can be software-read)
,
input
datascope_clk
,
...
...
@@ -127,6 +135,12 @@ module axi_ahci_regs#(
input
[
31
:
0
]
datascope_di
`endif
)
;
`ifdef
USE_DRP
localparam
DRP_ADDR
=
'h3fb
;
reg
[
15
:
0
]
drp_read_data
;
reg
drp_read_r
;
reg
drp_ready_r
;
`endif
`ifdef
USE_DATASCOPE
localparam
AXIBRAM_BITS
=
ADDRESS_BITS
+
1
;
// number of axi address outputs (one more than ADDRESS_BITS when using datascope)
wire
[
31
:
0
]
datascope_rdata
;
...
...
@@ -202,7 +216,27 @@ module axi_ahci_regs#(
assign
was_hba_rst
=
was_hba_rst_r
[
0
]
;
assign
was_port_rst
=
was_port_rst_r
[
0
]
;
always
@
(
posedge
aclk
)
begin
`ifdef
USE_DRP
if
(
bram_waddr
==
DRP_ADDR
)
begin
drp_di
<=
bram_wdata
[
15
:
0
]
;
drp_addr
<=
bram_wdata
[
30
:
16
]
;
// drp_we <= bram_wdata[31];
end
drp_en
<=
(
bram_waddr
==
DRP_ADDR
)
;
drp_we
<=
(
bram_waddr
==
DRP_ADDR
)
&&
bram_wdata
[
31
]
;
if
(
arst
||
(
bram_waddr
==
DRP_ADDR
))
drp_ready_r
<=
0
;
else
if
(
drp_rdy
)
drp_ready_r
<=
1
;
if
(
drp_rdy
)
drp_read_data
<=
drp_do
;
if
(
bram_ren
[
0
])
drp_read_r
<=
(
bram_raddr
==
DRP_ADDR
)
;
`endif
if
(
arst
)
write_busy_r
<=
0
;
else
if
(
write_start_burst
)
write_busy_r
<=
1
;
...
...
@@ -210,21 +244,30 @@ module axi_ahci_regs#(
if
(
bram_wen
)
bram_wdata_r
<=
bram_wdata
;
// if (bram_ren[1]) bram_rdata_r <= debug_rd_r? debug_in : bram_rdata;
bram_wstb_r
<=
{
4
{
bram_wen
}}
&
bram_wstb
;
bram_wen_r
<=
bram_wen
;
if
(
bram_wen
)
bram_waddr_r
<=
bram_waddr
[
ADDRESS_BITS
-
1
:
0
]
;
if
(
bram_ren
[
0
])
debug_rd_r
<=
&
bram_raddr
[
ADDRESS_BITS
-
1
:
4
]
;
// last 16 DWORDs (With AXIBRAM_BITS will be duplicated)
`ifdef
USE_DATASCOPE
if
(
bram_ren
[
0
])
debug_rd_r
<=
(
&
bram_raddr
[
ADDRESS_BITS
-
1
:
4
])
&&
// (bram_raddr[3:2] == 0) &&
!
bram_raddr
[
ADDRESS_BITS
]
;
//
`else
if
(
bram_ren
[
0
])
debug_rd_r
<=
(
&
bram_raddr
[
ADDRESS_BITS
-
1
:
4
])
;
// &&
// (bram_raddr[3:2] == 0); //
`endif
if
(
bram_ren
[
0
])
debug_r
<=
bram_raddr
[
1
]
?
(
bram_raddr
[
0
]
?
debug_in3
:
debug_in2
)
:
(
bram_raddr
[
0
]
?
debug_in1
:
debug_in0
)
;
if
(
bram_ren
[
1
])
bram_rdata_r
<=
debug_rd_r
?
debug_r
:
bram_rdata
;
`ifdef
USE_DRP
if
(
bram_ren
[
1
])
bram_rdata_r
<=
drp_read_r
?
{
drp_ready_r
,
15'b0
,
drp_read_data
}:
(
debug_rd_r
?
debug_r
:
bram_rdata
)
;
`else
if
(
bram_ren
[
1
])
bram_rdata_r
<=
debug_rd_r
?
debug_r
:
bram_rdata
;
`endif
end
//debug_rd_r
...
...
@@ -415,12 +458,9 @@ sata_phy_rst_out will be released after the sata clock is stable
)
ahci_regs_i
(
.
clk_a
(
aclk
)
,
// input
.
addr_a
(
bram_addr
)
,
// input[9:0]
/// .en_a (bram_ren[0] || write_busy_w), // input
.
en_a
(
bram_ren
[
0
]
||
bram_wen
||
bram_wen_r
)
,
// input
/// .en_a (bram_ren_w[0] || bram_wen || bram_wen_r), // input
.
regen_a
(
1'b0
)
,
// input
// .we_a (write_busy_r && !nowrite), // input
.
we_a
(
bram_wstb_r
)
,
//bram_wen_d), // input[3:0]
.
we_a
(
bram_wstb_r
)
,
// input[3:0]
//
.
data_out_a
(
bram_rdata
)
,
// output[31:0]
.
data_in_a
(
ahci_regs_di
)
,
// input[31:0]
...
...
ahci/sata_ahci_top.v
View file @
507b1bd3
...
...
@@ -224,6 +224,16 @@
reg
[
2
:
0
]
nhrst_r
;
wire
hrst
=
!
nhrst_r
[
2
]
;
`ifdef
USE_DRP
wire
drp_en
;
wire
drp_we
;
wire
[
14
:
0
]
drp_addr
;
wire
[
15
:
0
]
drp_di
;
wire
drp_rdy
;
wire
[
15
:
0
]
drp_do
;
`endif
wire
[
31
:
0
]
debug_phy
;
wire
[
31
:
0
]
debug_link
;
...
...
@@ -366,6 +376,14 @@
.
sctl_ipm
(
sctl_ipm
)
,
// output[3:0]
.
sctl_spd
(
sctl_spd
)
,
// output[3:0]
.
irq
(
irq
)
,
// output
`ifdef
USE_DRP
.
drp_en
(
drp_en
)
,
// output reg
.
drp_we
(
drp_we
)
,
// output reg
.
drp_addr
(
drp_addr
)
,
// output[14:0] reg
.
drp_di
(
drp_di
)
,
// output[15:0] reg
.
drp_rdy
(
drp_rdy
)
,
// input
.
drp_do
(
drp_do
)
,
// input[15:0]
`endif
.
debug_in_phy
(
debug_phy
)
,
// input[31:0]
.
debug_in_link
(
debug_link
)
// input[31:0]
)
;
...
...
@@ -426,6 +444,16 @@
.
txn_out
(
TXN
)
,
// output wire
.
rxp_in
(
RXP
)
,
// input wire
.
rxn_in
(
RXN
)
,
// input wire
`ifdef
USE_DRP
.
drp_rst
(
arst
)
,
// input
.
drp_clk
(
ACLK
)
,
// input
.
drp_en
(
drp_en
)
,
// input
.
drp_we
(
drp_we
)
,
// input
.
drp_addr
(
drp_addr
)
,
// input[14:0]
.
drp_di
(
drp_di
)
,
// input[15:0]
.
drp_rdy
(
drp_rdy
)
,
// output
.
drp_do
(
drp_do
)
,
// output[15:0]
`endif
.
debug_phy
(
debug_phy
)
,
// output[31:0]
.
debug_link
(
debug_link
)
// output[31:0]
)
;
...
...
host/gtx_wrap.v
View file @
507b1bd3
This diff is collapsed.
Click to expand it.
host/sata_phy.v
View file @
507b1bd3
...
...
@@ -82,6 +82,16 @@ module sata_phy #(
output
cplllock_debug
,
output
usrpll_locked_debug
,
`ifdef
USE_DRP
input
drp_rst
,
input
drp_clk
,
input
drp_en
,
// @aclk strobes drp_ad
input
drp_we
,
input
[
14
:
0
]
drp_addr
,
input
[
15
:
0
]
drp_di
,
output
drp_rdy
,
output
[
15
:
0
]
drp_do
,
`endif
output
[
31
:
0
]
debug_sata
,
output
debug_detected_alignp
...
...
@@ -519,6 +529,17 @@ gtx_wrap
.
dbg_rxcdrlock
(
dbg_rxcdrlock
)
,
.
dbg_rxdlysresetdone
(
dbg_rxdlysresetdone
)
,
.
txbufstatus
(
txbufstatus
[
1
:
0
])
`ifdef
USE_DRP
,.
drp_rst
(
drp_rst
)
,
// input
.
drp_clk
(
drp_clk
)
,
// input
.
drp_en
(
drp_en
)
,
// input
.
drp_we
(
drp_we
)
,
// input
.
drp_addr
(
drp_addr
)
,
// input[14:0]
.
drp_di
(
drp_di
)
,
// input[15:0]
.
drp_rdy
(
drp_rdy
)
,
// output
.
drp_do
(
drp_do
)
// output[15:0]
`endif
)
;
...
...
host/sipo_to_xclk_measure.v
0 → 100644
View file @
507b1bd3
/*******************************************************************************
* Module: sipo_to_xclk_measure
* Date:2016-02-09
* Author: andrey
* Description: Measuring phase of the SIPO data output relative to (global) xclk
* This module allow select all/some of the input data lines and see if the data
* sampled at negedge of the xclk differs from sampled at the previous or next
* posedge on any of the selected bits. Mismatch with previous posedge means that
* data comes while xclk == 0 (input data too late), mismatch with next posedge
* means that data changes while xclk == 1 (too early).
* Input selection for low 16 bits is written at address DRP_MASK_ADDR (0), next
* 16 bits - at DRP_MASK_ADDR + 1.
* Measurement starts by writing duration to DRP_TIMER_ADDR (8).
* Results (number of mismatches) are available as 15-bit numbers at
* DRP_EARLY_ADDR (9) and DRP_LATE_ADDR (10), MSB indicates that measurement is
* still in progress (wait it clears, small latency for 0 -> 1 should not be
* a problem).
*
* Copyright (c) 2016 Elphel, Inc .
* sipo_to_xclk_measure.v 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.
*
* sipo_to_xclk_measure.v 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/> .
*******************************************************************************/
`timescale
1
ns
/
1
ps
module
sipo_to_xclk_measure
#(
parameter
DATA_WIDTH
=
20
,
// Number of data bits to measure
parameter
DRP_ABITS
=
8
,
parameter
DRP_MASK_ADDR
=
0
,
parameter
DRP_MASK_BITS
=
3
,
parameter
DRP_TIMER_ADDR
=
8
,
// write timer value (how long to count early/late)
parameter
DRP_EARLY_ADDR
=
9
,
// write timer value (how long to count early/late)
parameter
DRP_LATE_ADDR
=
10
,
// write timer value (how long to count early/late)
parameter
DRP_OTHERCTRL_ADDR
=
11
)(
input
xclk
,
input
drp_rst
,
// for other_control
input
[
DATA_WIDTH
-
1
:
0
]
sipo_di
,
output
[
DATA_WIDTH
-
1
:
0
]
sipo_do
,
// input data registered @ posedge xclk (to be used by other modules)
input
drp_clk
,
input
drp_en
,
// @aclk strobes drp_ad
input
drp_we
,
input
[
DRP_ABITS
-
1
:
0
]
drp_addr
,
input
[
15
:
0
]
drp_di
,
output
reg
drp_rdy
,
output
reg
[
15
:
0
]
drp_do
,
output
reg
[
15
:
0
]
other_control
// set/reset some control bits not related to this module
)
;
localparam
MASK_WORDS
=
(
DATA_WIDTH
+
15
)
>>
4
;
reg
[
DATA_WIDTH
-
1
:
0
]
sipo_p
;
// input data registered @ posedge xclk
reg
[
DATA_WIDTH
-
1
:
0
]
sipo_n
;
// input data registered @ negedge xclk
reg
[
DATA_WIDTH
-
1
:
0
]
sipo_pp
;
// input data registered twice @ posedge xclk
reg
[
DATA_WIDTH
-
1
:
0
]
sipo_np
;
// input data registered @ negedge xclk, then @ posedge xclk
reg
[(
16
*
MASK_WORDS
)
-
1
:
0
]
dmask
;
// bits to consider (or)
reg
input_early_r
;
// SIPO data is intended to be registered @ posedge xclk
reg
input_late_r
;
reg
[
15
:
0
]
timer_cntr
;
reg
[
14
:
0
]
early_cntr
;
reg
[
14
:
0
]
late_cntr
;
wire
timer_start
;
reg
timer_run
;
reg
[
DRP_ABITS
-
1
:
0
]
drp_addr_r
;
reg
drp_wr_r
;
reg
[
1
:
0
]
drp_rd_r
;
reg
[
15
:
0
]
drp_di_r
;
reg
drp_mask_wr
;
reg
drp_timer_wr
;
reg
drp_read_early
;
reg
drp_read_late
;
reg
drp_other_ctrl
;
reg
drp_read_other_ctrl
;
localparam
DRP_MASK_MASK
=
(
1
<<
DRP_MASK_BITS
)
-
1
;
assign
sipo_do
=
sipo_p
;
always
@
(
negedge
xclk
)
sipo_n
<=
sipo_di
;
// only data registered @negedge
always
@
(
posedge
xclk
)
begin
sipo_p
<=
sipo_di
;
sipo_np
<=
sipo_n
;
sipo_pp
<=
sipo_p
;
input_early_r
<=
|
(
dmask
[
DATA_WIDTH
-
1
:
0
]
&
(
sipo_np
^
sipo_pp
))
;
input_late_r
<=
|
(
dmask
[
DATA_WIDTH
-
1
:
0
]
&
(
sipo_np
^
sipo_p
))
;
if
(
timer_start
)
timer_cntr
<=
drp_di_r
;
else
if
(
timer_run
)
timer_cntr
<=
timer_cntr
-
1
;
if
(
timer_start
)
timer_run
<=
1
;
else
if
(
!
(
|
timer_cntr
[
15
:
1
]))
timer_run
<=
0
;
if
(
timer_start
)
early_cntr
<=
0
;
else
if
(
timer_run
&&
input_early_r
)
early_cntr
<=
early_cntr
+
1
;
if
(
timer_start
)
late_cntr
<=
0
;
else
if
(
timer_run
&&
input_late_r
)
late_cntr
<=
late_cntr
+
1
;
end
// DRP interface
always
@
(
posedge
drp_clk
)
begin
drp_addr_r
<=
drp_addr
;
drp_wr_r
<=
drp_we
&&
drp_en
;
drp_rd_r
<=
{
drp_rd_r
[
0
]
,~
drp_we
&
drp_en
};
drp_di_r
<=
drp_di
;
drp_mask_wr
<=
drp_wr_r
&&
((
drp_addr_r
&
~
DRP_MASK_MASK
)
==
DRP_MASK_ADDR
)
;
drp_timer_wr
<=
drp_wr_r
&&
(
drp_addr_r
==
DRP_TIMER_ADDR
)
;
drp_read_early
<=
drp_rd_r
[
0
]
&&
(
drp_addr_r
==
DRP_EARLY_ADDR
)
;
drp_read_late
<=
drp_rd_r
[
0
]
&&
(
drp_addr_r
==
DRP_LATE_ADDR
)
;
drp_other_ctrl
<=
drp_wr_r
&&
(
drp_addr_r
==
DRP_OTHERCTRL_ADDR
)
;
drp_read_other_ctrl
<=
drp_rd_r
[
0
]
&&
(
drp_addr_r
==
DRP_OTHERCTRL_ADDR
)
;
drp_rdy
<=
drp_wr_r
||
drp_rd_r
[
1
]
;
drp_do
<=
(
{
16
{
drp_read_early
}}
&
{
timer_run
,
early_cntr
}
)
|
(
{
16
{
drp_read_late
}}
&
{
timer_run
,
late_cntr
}
)
|
(
{
16
{
drp_read_other_ctrl
}}
&
{
other_control
}
)
;
if
(
drp_rst
)
other_control
<=
0
;
else
if
(
drp_other_ctrl
)
other_control
<=
drp_di_r
;
end
// 0..7 - data mask
genvar
i1
;
generate
for
(
i1
=
0
;
i1
<
MASK_WORDS
;
i1
=
i1
+
1
)
begin
:
gen_drp_mask
always
@
(
posedge
drp_clk
)
if
(
drp_mask_wr
&&
((
drp_addr_r
&
DRP_MASK_MASK
)
==
i1
))
dmask
[
16
*
i1
+:
16
]
<=
drp_di_r
;
end
endgenerate
pulse_cross_clock
#(
.
EXTRA_DLY
(
0
)
)
timer_set_i
(
.
rst
(
drp_mask_wr
)
,
// input
.
src_clk
(
drp_clk
)
,
// input
.
dst_clk
(
xclk
)
,
// input
.
in_pulse
(
drp_timer_wr
)
,
// input
.
out_pulse
(
timer_start
)
,
// output
.
busy
()
// output
)
;
endmodule
py393sata/x393sata.py
View file @
507b1bd3
...
...
@@ -62,7 +62,7 @@ COMMAND_BUFFER_OFFSET = 0x0 # Just at the beginning of available memory
COMMAND_BUFFER_SIZE
=
0x100
# 256 bytes - 128 before PRDT, 128+ - PRDTs (16 bytes each)
PRD_OFFSET
=
0x80
# Start of the PRD table
FB_OFFS
=
0xc00
# Needs 0x100 bytes
DRP_OFFS
=
0xfec
# Read/Write DRP data [31] - write/ready, [30:16] - address/0, [15:0] - data to/data from
DATAIN_BUFFER_OFFSET
=
0x10000
DATAIN_BUFFER_SIZE
=
0x10000
IDENTIFY_BUF
=
0
# Identify receive buffer offset in DATAIN_BUFFER, in bytes
...
...
@@ -79,6 +79,14 @@ COMMAND_ADDRESS = None # start of the command buffer (to be sent to device)
DATAIN_ADDRESS
=
None
# start of the the
DATAOUT_ADDRESS
=
None
# start of the the
#DRP addresses (non-GTX)
DRP_MASK_ADDR
=
0x200
# ..0x207
DRP_TIMER_ADDR
=
0x208
# write timer value (how long to count early/late)
DRP_EARLY_ADDR
=
0x209
# write timer value (how long to count early/late)
DRP_LATE_ADDR
=
0x20a
# write timer value (how long to count early/late)
DRP_OTHERCTRL_ADDR
=
0x20b
# Now bit 0 - disable wait for phase align
#FIS types
FIS_H2DR
=
0x27
FIS_D2HR
=
0x34
...
...
@@ -651,6 +659,44 @@ class x393sata(object):
#print("_=mem.mem_dump (0x%x, 0x%x, 1)"%(data_buf, count * 0x200))
#self.x393_mem.mem_dump (data_buf, count * 0x200, 1)
def
drp_write
(
self
,
addr
,
data
):
self
.
x393_mem
.
write_mem
(
MAXI1_ADDR
+
DRP_OFFS
,
(
1
<<
31
)
|
((
addr
&
0x7fff
)
<<
16
)
|
(
data
&
0xffff
))
# while (self.x393_mem.read_mem(MAXI1_ADDR + DRP_OFFS)) & (1 << 31): # No need to wait from Python
# sleep(0.001)
def
drp_read
(
self
,
addr
):
self
.
x393_mem
.
write_mem
(
MAXI1_ADDR
+
DRP_OFFS
,
(
0
<<
31
)
|
((
addr
&
0x7fff
)
<<
16
))
d
=
self
.
x393_mem
.
read_mem
(
MAXI1_ADDR
+
DRP_OFFS
)
while
not
d
&
(
1
<<
31
)
:
d
=
self
.
x393_mem
.
read_mem
(
MAXI1_ADDR
+
DRP_OFFS
)
return
int
(
d
&
0xffff
)
def
drp
(
self
,
addr
,
data
=
None
):
if
data
is
None
:
return
self
.
drp_read
(
addr
)
self
.
drp_write
(
addr
,
data
)
def
read_sipo_meas
(
self
,
mask
,
duration
):
self
.
drp_write
(
DRP_MASK_ADDR
,
mask
&
0xffff
)
self
.
drp_write
(
DRP_MASK_ADDR
+
1
,
(
mask
>>
16
)
&
0xffff
)
self
.
drp_write
(
DRP_TIMER_ADDR
,
duration
)
early_count
=
self
.
drp_read
(
DRP_EARLY_ADDR
)
while
(
early_count
&
(
1
<<
15
)):
early_count
=
self
.
drp_read
(
DRP_EARLY_ADDR
)
late_count
=
self
.
drp_read
(
DRP_LATE_ADDR
)
print
(
"early_count = 0x
%
x, late_count = 0x
%
x, duration = 0x
%
x"
%
(
early_count
,
late_count
,
duration
))
return
(
1.0
*
early_count
/
duration
,
1.0
*
late_count
/
duration
)
def
drp_cbit
(
self
,
bit
,
value
=
None
):
old_val
=
self
.
drp_read
(
DRP_OTHERCTRL_ADDR
)
if
value
is
None
:
return
(
old_val
>>
bit
)
&
1
;
mask
=
(
1
<<
bit
)
if
value
:
new_val
=
mask
else
:
new_val
=
0
self
.
drp_write
(
DRP_OTHERCTRL_ADDR
,
((
old_val
^
new_val
)
&
mask
)
^
old_val
)
"""
ATA_IDFY = 0xec # Identify command
ATA_WDMA = 0xca # Write to device in DMA mode
...
...
@@ -663,12 +709,29 @@ ATA_RBUF_DMA = 0xe9 # Read 512 bytes from device buffer in DMA mode
_=mem.mem_dump(0xf800b000,10,4)
_=mem.mem_dump (0x80000ff0, 4,4)
sata.read_sipo_meas(0xfffff,0x7ffe)
mem.write_mem(0x80000118,0x11) # ST & FRE
Implement DRP read/write:
mem.write_mem(0x80000fec, 0x550000)
hex(mem.read_mem(0x80000fec))
'0x8000001fL'
sata.drp_write(0x20b,1) #disable wait for auto align
sata.reset_device()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status(
sata.reset_ie(), sata.reg_status()
sata.read_sipo_meas(0xfffff,0x7ffe)
drp_write ('h20b, 'h401); // bypass, clock align
sata.reg_status(),sata.reset_ie()
sata.read_sipo_meas(0xfffff,0x7ffe)
_=mem.mem_dump (0x80000ff0, 4,4)
hex(sata.drp_read(0x55))
cd /mnt/mmc/local/bin
python
...
...
@@ -678,14 +741,18 @@ import x393sata
import x393_mem
mem = x393_mem.X393Mem(1,0,1)
sata = x393sata.x393sata()
sata.bitstream()
#sata.drp_write (0x20b,0x401) # bypass, clock align
### sata.drp (0x20b,0x81) # bypass, clock align
#sata.drp (0x20b,0x400) # bypass, clock align
### sata.drp (0x59,0x8) # Use RXREC
#sata.drp (0x59,0x48)
sata.reg_status()
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
mem.write_mem(0x80000118,0x11)
sata.reset_ie(), sata.reg_status()
sata.reg_status(),sata.reset_ie()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.setup_pio_read_identify_command()
sata.reg_status()
...
...
@@ -737,6 +804,7 @@ sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x81, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
...
...
@@ -744,6 +812,141 @@ sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x321, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x331, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x341, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x441, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x421, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x481, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x4c1, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x4f1, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x4ff, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x500, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x400, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x401, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x601, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x600, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x5ff, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x601, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x600, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x602, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
sata.reg_status()
sata.reset_ie()
sata.dd_read_dma(0x5f0, 1)
_=mem.mem_dump (0x80001000, 0x100,4)
sata.reg_status()
_=mem.mem_dump (0x80000ff0, 4,4)
mem.write_mem(0x80000118,0x10)
...
...
@@ -766,7 +969,7 @@ hex(mem.read_mem(0x80000ff0))
mem.write_mem(0x80000118,0x11)
sata.setup_pio_read_identify_command()
mem.write_mem(sata.get_reg_address('HBA_PORT__PxCI'), 1)
#
mem.write_mem(sata.get_reg_address('HBA_PORT__PxCI'), 1)
_=mem.mem_dump (0x80001000, 0x20,4)
mem.maxi_base()
...
...
system_defines.vh
View file @
507b1bd3
// This file may be used to define same pre-processor macros to be included into each parsed file
`ifndef SYSTEM_DEFINES
`define SYSTEM_DEFINES
`define USE_DRP
`define ALIGN_CLOCKS
`define USE_DATASCOPE
`define PRELOAD_BRAMS
...
...
tb/tb_ahci.tf
View file @
507b1bd3
...
...
@@ -714,6 +714,9 @@ always #(CLKIN_PERIOD/2) CLK = ~CLK;
`include "includes/ahci_localparams.vh" // SuppressThisWarning VEditor - many unused defines
`include "includes/fis_types.vh" // SuppressThisWarning VEditor - some unused defines
localparam MAXIGP1 = 32'
h80000000
;
// Start of the MAXIGP1 address range (use ahci_localparams.vh offsets)
localparam
DRP_OFFSET
=
'hfec;
localparam DEBUG_OFFSET = '
hff0
;
task
maxigp1_write_single
;
// address in bytes, not words
input
[
31
:
0
]
address
;
...
...
@@ -732,7 +735,47 @@ localparam MAXIGP1 = 32'h80000000; // Start of the MAXIGP1 address range (use ah
end
endtask
task
drp_write
;
input
[
14
:
0
]
addr
;
input
[
15
:
0
]
data
;
begin
$display
(
"[DRP]: %x <- %x @ %t"
,
addr
,
data
,
$time
);
maxigp1_write_single
(
DRP_OFFSET
,
{
1
'b1, addr, data});
maxigp1_read (DRP_OFFSET);
while (!registered_rdata[31]) maxigp1_read (DRP_OFFSET);
end
endtask
task drp_read;
input [14:0] addr;
output reg [15:0] data;
begin
maxigp1_write_single (DRP_OFFSET, {1'
b0
,
addr
,
16
'b0});
maxigp1_read (DRP_OFFSET);
while (!registered_rdata[31]) maxigp1_read (DRP_OFFSET);
data = registered_rdata[15:0];
$
display ("[DRP]: %x -> %x @ %t",addr, data,
$
time);
end
endtask
task read_sipo_meas;
input [31:0] mask;
input [15:0] duration;
output reg [14:0] early_count;
output reg [14:0] late_count;
reg running;
// wire [15:0] data;
begin
drp_write ('
h200
,
mask
[
15
:
0
]
);
drp_write
(
'h201, mask[31:16]);
drp_write ('
h208
,
duration
);
drp_read
(
'h209, {running,early_count});
drp_read ('
h209
,
{
running
,
early_count
}
);
while
(
running
)
drp_read
(
'h209,{running, early_count});
drp_read ('
h20a
,
{
running
,
late_count
}
);
$display
(
"[DRP] read_sipo_meas(): early:%x/%x, late: %x/%x @ %t"
,
early_count
,
duration
,
late_count
,
duration
,
$time
);
end
endtask
task
maxigp1_read
;
input
[
31
:
0
]
address
;
...
...
@@ -999,7 +1042,9 @@ localparam ATA_RBUF_DMA = 'he9; // Read 512 bytes from device buffer in DMA mod
reg [15:0] drp_read_data;
reg [14:0] early_count;
reg [14:0] late_count;
initial begin //Host
NUM_WORDS_EXPECTED =0;
...
...
@@ -1011,6 +1056,21 @@ initial begin //Host
axi_set_rd_lag(0);
axi_set_b_lag(0);
//simulate DRP write/read
// disable waiting for phase aligned:
// drp_write ('h20b, 'h400); // no-bypass, clock align
drp_write ('h20b, 'h401); // bypass, clock align
drp_write ('h10, 'h1234);
drp_write ('h11, 'h2345);
drp_write ('h12, 'h3456);
drp_read ('h10, drp_read_data);
drp_read ('h11, drp_read_data);
drp_read ('h12, drp_read_data);
drp_read ('h20b, drp_read_data);
maxigp1_writep (PXSIG_OFFS32 << 2, 'h12345678); //
maxigp1_writep (PXTFD_OFFS32 << 2, 'h87654321); //
maxigp1_writep (CLB_OFFS32 << 2, 'h12345678); //
...
...
@@ -1045,6 +1105,17 @@ initial begin //Host
wait (IRQ);
TESTBENCH_TITLE = "Got D2H IRQ";
$display("[Testbench]: %s @%t", TESTBENCH_TITLE, $time);
maxigp1_print (DEBUG_OFFSET + 0, "DEBUG0");
maxigp1_print (DEBUG_OFFSET + 4, "DEBUG1");
maxigp1_print (DEBUG_OFFSET + 8 ,"DEBUG2");
maxigp1_print (DEBUG_OFFSET + 12, "DEBUG3");
read_sipo_meas ('hfffff, 256, early_count, late_count);
read_sipo_meas ('h00001, 256, early_count, late_count);
maxigp1_print (GHC__IS__IPS__ADDR << 2,"GHC__IS__IPS__ADDR"); // Should be 1 (port 0)
maxigp1_writep (GHC__IS__IPS__ADDR << 2, 1); // clear that interrupt
maxigp1_print (GHC__IS__IPS__ADDR << 2,"GHC__IS__IPS__ADDR"); // Now it should be 0
...
...
tb_ahci_01.sav
View file @
507b1bd3
This diff is collapsed.
Click to expand it.
wrapper/GTXE2_GPL.v
View file @
507b1bd3
...
...
@@ -2986,6 +2986,26 @@ assign RXCDRLOCK = rxcdrlock;
assign
RXDLYSRESETDONE
=
rxdlysresetdone
;
assign
RXPHALIGNDONE
=
rxphaligndone
;
localparam
DRP_LATENCY
=
5
;
integer
drp_latency_counter
;
reg
drp_rdy_r
;
reg
[
15
:
0
]
drp_ram
[
0
:
511
]
;
reg
[
8
:
0
]
drp_raddr
;
assign
DRPDO
=
drp_rdy_r
?
drp_ram
[
drp_raddr
]
:
16'bz
;
assign
DRPRDY
=
drp_rdy_r
;
always
@
(
posedge
DRPCLK
)
begin
if
(
DRPEN
)
drp_latency_counter
<=
DRP_LATENCY
;
else
if
(
drp_latency_counter
!=
0
)
drp_latency_counter
<=
drp_latency_counter
-
1
;
if
(
DRPEN
&&
DRPWE
)
drp_ram
[
DRPADDR
]
<=
DRPDI
;
drp_rdy_r
<=
(
drp_latency_counter
==
1
)
;
if
(
DRPEN
)
drp_raddr
<=
DRPADDR
;
end
initial
forever
@
(
posedge
reset
)
begin
...
...
Write
Preview
Markdown
is supported
0%
Try again
or
attach a new file
Attach a file
Cancel
You are about to add
0
people
to the discussion. Proceed with caution.
Finish editing this message first!
Cancel
Please
register
or
sign in
to comment