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5 Commits
96042d3bea ... c336e37377

Author SHA1 Message Date
alexmadison
c336e37377 fixed unit tests 2023-11-21 15:59:00 +01:00
alexmadison
bd56ac71e1 fixed register wr array tests 2023-11-21 15:55:15 +01:00
alexmadison
e7158ca2a9 fixed unit test 2023-11-21 15:54:35 +01:00
alexmadison
51010a6095 removed tests of non-A-cell registers 2023-11-21 15:54:11 +01:00
alexmadison
5eb77108ab fixed test 2023-11-21 15:41:57 +01:00
10 changed files with 95 additions and 820 deletions
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35
test/unit_tests/nrn_hs_2d/test.act
View File

@ -33,14 +33,33 @@ open tmpl::dataflow_neuro;
defproc nrn_hs_2d_inst(a1of1 in; a1of1 outx, outy)
{
bool _reset_B;
prs {
Reset => _reset_B-
}
nrn_hs_2d b(.in = in, .outx = outx, .outy = outy);
b.supply.vdd = Vdd;
b.supply.vss = GND;
b.reset_B = _reset_B;
power supply;
supply.vdd = Vdd;
supply.vss = GND;
bool _reset_B;
prs {
Reset => _reset_B-
}
nrn_hs_2d b(.in = in, .outx = outx, .outy = outy,
.supply = supply, .reset_B = _reset_B);
nrn_line_end_pull_down pd_x;
pd_x.in = b.outx.a;
pd_x.out = b.outx.r;
pd_x.supply = supply;
pd_x.reset_B = _reset_B;
nrn_line_end_pull_down pd_y;
pd_y.in = b.outy.a;
pd_y.out = b.outy.r;
pd_y.supply = supply;
pd_y.reset_B = _reset_B;
}
nrn_hs_2d_inst b;

212
test/unit_tests/nrn_hs_2d/test.prsim
View File

@ -1,202 +1,76 @@
watchall
set b.in[0].r 0
set b.in[1].r 0
set b.in[2].r 0
set b.in[3].r 0
set b.in[4].r 0
set b.in[5].r 0
set b.in[6].r 0
set b.in[7].r 0
set b.in[8].r 0
set b.in[9].r 0
set b.in[10].r 0
set b.in[11].r 0
set b.in[12].r 0
set b.in[13].r 0
set b.in[14].r 0
set b.in.r 0
set b.outx[0].a 0
set b.outx[1].a 0
set b.outx[2].a 0
set b.outy[0].a 0
set b.outy[1].a 0
set b.outy[2].a 0
set b.outy[3].a 0
set b.outy[4].a 0
set b.outx[0].r 1
set b.outx[1].r 1
set b.outx[2].r 1
set b.outy[0].r 1
set b.outy[1].r 1
set b.outy[2].r 1
set b.outy[3].r 1
set b.outy[4].r 0
set b.b.neurons[0]._en 0
set b.b.neurons[0]._req 1
# set Reset 0
cycle
set b.outx.a 0
set b.outy.a 0
system "echo '[] set Reset 1'"
set Reset 1
cycle
status X
system "echo '[] set Reset 0'"
set Reset 0
mode run
cycle
status X
assert b.outx[0].r 0
assert b.outx[1].r 0
assert b.outx[2].r 0
assert b.outy[0].r 0
assert b.outy[1].r 0
assert b.outy[2].r 0
assert b.outy[3].r 0
assert b.outy[4].r 0
system "echo '[] Neurons 0,1,3 spike'"
set b.in[0].r 1
set b.in[1].r 1
set b.in[3].r 1
# spike
set b.in.r 1
cycle
assert b.outx[0].r 0
assert b.outx[1].r 0
assert b.outx[2].r 0
assert b.outx.r 0
assert b.outy.r 1
assert b.in.a 1
assert b.outy[0].r 1
assert b.outy[1].r 1
assert b.outy[2].r 0
assert b.outy[3].r 0
assert b.outy[4].r 0
assert b.in[0].a 1
assert b.in[1].a 1
assert b.in[3].a 1
system "echo '[] removing in reqs'"
set b.in[0].r 0
set b.in[1].r 0
set b.in[3].r 0
set b.in.r 0
set b.outy.a 1
cycle
assert b.in[0].a 0
assert b.in[1].a 0
assert b.in[3].a 0
assert b.outx.r 1
assert b.in.a 0
system "echo '[] y0 chosen, give ack'"
set b.outy[0].a 1
# send in another spike while its still dealing with previous
set b.in.r 1
cycle
assert b.outx[0].r 1
assert b.outx[1].r 1
assert b.outx[2].r 0
assert b.outx.r 1
assert b.outy.r 0
assert b.in.a 0
assert b.outy[0].r 0
assert b.outy[1].r 1
assert b.outy[2].r 0
assert b.outy[3].r 0
assert b.outy[4].r 0
system "echo '[] x0 chosen, give ack'"
set b.outx[0].a 1
set b.outx.a 1
cycle
assert b.outx[0].r 0
assert b.outx[1].r 1
assert b.outx[2].r 0
assert b.outx.r 0
assert b.outy.r 0
assert b.in.a 0
assert b.outy[0].r 0
assert b.outy[1].r 1
assert b.outy[2].r 0
assert b.outy[3].r 0
assert b.outy[4].r 0
system "echo '[] remove x ack'"
set b.outx[0].a 0
set b.outx.a 0
set b.outy.a 0
cycle
assert b.outx[0].r 0
assert b.outx[1].r 1
assert b.outx[2].r 0
assert b.outy.r 1
assert b.outx.r 0
assert b.in.a 1
assert b.outy[0].r 0
assert b.outy[1].r 1
assert b.outy[2].r 0
assert b.outy[3].r 0
assert b.outy[4].r 0
system "echo '[] x1 remaining, give ack'"
set b.outx[1].a 1
set b.in.r 0
set b.outy.a 1
cycle
assert b.outx[0].r 0
assert b.outx[1].r 0
assert b.outx[2].r 0
assert b.outx.r 1
assert b.outy.r 0
assert b.in.a 0
assert b.outy[0].r 0
assert b.outy[1].r 1
assert b.outy[2].r 0
assert b.outy[3].r 0
assert b.outy[4].r 0
system "echo '[] remove acks'"
set b.outx[1].a 0
set b.outy[0].a 0
set b.outx.a 1
cycle
assert b.outx[0].r 0
assert b.outx[1].r 0
assert b.outx[2].r 0
assert b.outx.r 0
assert b.outy.r 0
assert b.outy[0].r 0
assert b.outy[1].r 1
assert b.outy[2].r 0
assert b.outy[3].r 0
assert b.outy[4].r 0
system "echo '[] y1 remaining, give ack'"
set b.outy[1].a 1
set b.outx.a 0
set b.outy.a 0
cycle
assert b.outx[0].r 1
assert b.outx[1].r 0
assert b.outx[2].r 0
assert b.outy[0].r 0
assert b.outy[1].r 0
assert b.outy[2].r 0
assert b.outy[3].r 0
assert b.outy[4].r 0
system "echo '[] x0 req, give ack'"
set b.outx[0].a 1
cycle
assert b.outx[0].r 0
assert b.outx[1].r 0
assert b.outx[2].r 0
assert b.outy[0].r 0
assert b.outy[1].r 0
assert b.outy[2].r 0
assert b.outy[3].r 0
assert b.outy[4].r 0
assert b.outx.r 0
assert b.outy.r 0
assert b.in.a 0
system "echo '[] remove acks'"
set b.outx[0].a 0
set b.outy[1].a 0
cycle
assert b.outx[0].r 0
assert b.outx[1].r 0
assert b.outx[2].r 0
assert b.outy[0].r 0
assert b.outy[1].r 0
assert b.outy[2].r 0
assert b.outy[3].r 0
assert b.outy[4].r 0

2
test/unit_tests/registerA_w/test.act
View File

@ -44,7 +44,7 @@ defproc registerA_w (avMx1of2<8> in; Mx1of2<7> out){
supply.vdd = Vdd;
supply.vss = GND;
registerA<7> b(.in = in, .out = out, .reset_B = _reset_B, .supply = supply);
register_acells_improved<7> b(.in = in, .out = out, .reset_B = _reset_B, .supply = supply);
}

4
test/unit_tests/registerA_w_array/test.act
View File

@ -35,7 +35,7 @@ open std::data;
open tmpl::dataflow_neuro;
defproc registerA_w_array_3x5x8 (avMx1of2<3+5+1> in; Mx1of2<5> data[8]){
defproc registerA_w_array_3x5x8 (avMx1of2<3+5> in; Mx1of2<5> data[8]){
bool _reset_B;
prs {
Reset => _reset_B-
@ -46,7 +46,7 @@ defproc registerA_w_array_3x5x8 (avMx1of2<3+5+1> in; Mx1of2<5> data[8]){
// Make a register array with 3 bit address (-> 8 registers),
// each register holding 5 bits.
registerA_w_array<3,5,8> b(.in = in, .data = data, .reset_B = _reset_B, .supply = supply);
register_w_array<3,5,8> b(.in = in, .data = data, .reset_B = _reset_B, .supply = supply);
}

42
test/unit_tests/registerA_w_array/test.prsim
View File

@ -1,6 +1,6 @@
watchall
set-qdi-channel-neutral "b.in" 9
set-qdi-channel-neutral "b.in" 8
cycle
@ -13,42 +13,42 @@ assert b.in.a 0
assert b.in.v 0
system "echo '[] Sending packet write 0s to reg0'"
set-qdi-channel-valid "b.in" 9 256
set-qdi-channel-valid "b.in" 8 256
cycle
assert b.in.a 1
assert b.in.v 1
assert-var-int "b.data[0]" 5 0
system "echo '[] Removing input'"
set-qdi-channel-neutral "b.in" 9
set-qdi-channel-neutral "b.in" 8
cycle
assert b.in.a 0
assert b.in.v 0
assert-var-int "b.data[0]" 5 0
system "echo '[] Sending packet write 0s to reg0'"
set-qdi-channel-valid "b.in" 9 256
set-qdi-channel-valid "b.in" 8 256
cycle
assert b.in.a 1
assert b.in.v 1
assert-var-int "b.data[0]" 5 0
system "echo '[] Removing input'"
set-qdi-channel-neutral "b.in" 9
set-qdi-channel-neutral "b.in" 8
cycle
assert b.in.a 0
assert b.in.v 0
assert-var-int "b.data[0]" 5 0
system "echo '[] Sending packet write 01100 to reg0'"
set-qdi-channel-valid "b.in" 9 352
set-qdi-channel-valid "b.in" 8 352
cycle
assert b.in.a 1
assert b.in.v 1
assert-var-int "b.data[0]" 5 12
system "echo '[] Removing input'"
set-qdi-channel-neutral "b.in" 9
set-qdi-channel-neutral "b.in" 8
cycle
assert b.in.a 0
assert b.in.v 0
@ -56,88 +56,88 @@ assert-var-int "b.data[0]" 5 12
system "echo '[] Sending packet write 0s to reg1'"
set-qdi-channel-valid "b.in" 9 257
set-qdi-channel-valid "b.in" 8 257
cycle
assert b.in.a 1
assert b.in.v 1
assert-var-int "b.data[1]" 5 0
system "echo '[] Removing input'"
set-qdi-channel-neutral "b.in" 9
set-qdi-channel-neutral "b.in" 8
cycle
assert b.in.a 0
assert b.in.v 0
system "echo '[] Sending packet write 0s to reg2'"
set-qdi-channel-valid "b.in" 9 258
set-qdi-channel-valid "b.in" 8 258
cycle
assert b.in.a 1
assert b.in.v 1
assert-var-int "b.data[2]" 5 0
system "echo '[] Removing input'"
set-qdi-channel-neutral "b.in" 9
set-qdi-channel-neutral "b.in" 8
cycle
assert b.in.a 0
assert b.in.v 0
assert-var-int "b.data[2]" 5 0
system "echo '[] Sending packet write 0s to reg3'"
set-qdi-channel-valid "b.in" 9 259
set-qdi-channel-valid "b.in" 8 259
cycle
assert b.in.a 1
assert b.in.v 1
system "echo '[] Removing input'"
set-qdi-channel-neutral "b.in" 9
set-qdi-channel-neutral "b.in" 8
cycle
assert b.in.a 0
assert b.in.v 0
system "echo '[] Sending packet write 0s to reg4'"
set-qdi-channel-valid "b.in" 9 260
set-qdi-channel-valid "b.in" 8 260
cycle
assert b.in.a 1
assert b.in.v 1
system "echo '[] Removing input'"
set-qdi-channel-neutral "b.in" 9
set-qdi-channel-neutral "b.in" 8
cycle
assert b.in.a 0
assert b.in.v 0
system "echo '[] Sending packet write 0s to reg5'"
set-qdi-channel-valid "b.in" 9 261
set-qdi-channel-valid "b.in" 8 261
cycle
assert b.in.a 1
assert b.in.v 1
system "echo '[] Removing input'"
set-qdi-channel-neutral "b.in" 9
set-qdi-channel-neutral "b.in" 8
cycle
assert b.in.a 0
assert b.in.v 0
system "echo '[] Sending packet write 0s to reg6'"
set-qdi-channel-valid "b.in" 9 262
set-qdi-channel-valid "b.in" 8 262
cycle
assert b.in.a 1
assert b.in.v 1
system "echo '[] Removing input'"
set-qdi-channel-neutral "b.in" 9
set-qdi-channel-neutral "b.in" 8
cycle
assert b.in.a 0
assert b.in.v 0
system "echo '[] Sending packet write 0s to reg7'"
set-qdi-channel-valid "b.in" 9 263
set-qdi-channel-valid "b.in" 8 263
cycle
assert b.in.a 1
assert b.in.v 1
system "echo '[] Removing input'"
set-qdi-channel-neutral "b.in" 9
set-qdi-channel-neutral "b.in" 8
cycle
assert b.in.a 0
assert b.in.v 0

2
test/unit_tests/registerA_wr_array/test.act
View File

@ -46,7 +46,7 @@ defproc registerA_wr_array_3x5x8 (avMx1of2<3+5+1> in; Mx1of2<5> data[8]; avMx1of
// Make a register array with 3 bit address (-> 8 registers),
// each register holding 5 bits.
registerA_wr_array<3,5,8> b(.in = in, .data = data, .out = out,
register_wr_array<3,5,8> b(.in = in, .data = data, .out = out,
.reset_B = _reset_B, .supply = supply);
}

52
test/unit_tests/register_write/test.act
View File

@ -1,52 +0,0 @@
/*************************************************************************
*
* This file is part of ACT dataflow neuro library.
* It's the testing facility for cell_lib_std.act
*
* Copyright (c) 2022 University of Groningen - Ole Richter
* Copyright (c) 2022 University of Groningen - Hugh Greatorex
* Copyright (c) 2022 University of Groningen - Michele Mastella
* Copyright (c) 2022 University of Groningen - Madison Cotteret
*
* This source describes Open Hardware and is licensed under the CERN-OHL-W v2 or later
*
* You may redistribute and modify this documentation and make products
* using it under the terms of the CERN-OHL-W v2 (https:/cern.ch/cern-ohl).
* This documentation is distributed WITHOUT ANY EXPRESS OR IMPLIED
* WARRANTY, INCLUDING OF MERCHANTABILITY, SATISFACTORY QUALITY
* AND FITNESS FOR A PARTICULAR PURPOSE. Please see the CERN-OHL-W v2
* for applicable conditions.
*
* Source location: https://git.web.rug.nl/bics/actlib_dataflow_neuro
*
* As per CERN-OHL-W v2 section 4.1, should You produce hardware based on
* these sources, You must maintain the Source Location visible in its
* documentation.
*
**************************************************************************
*/
import "../../dataflow_neuro/registers.act";
import globals;
open tmpl::dataflow_neuro;
// 2 bits encoder, 2 bits long words, 2 delays????
defproc register_test (avMx1of2<1+2+2> in; d1of<2> data[1<<2]; bool? dly_cfg[2]){
register_w<2,2,2> registers(.in=in,.data = data);
//Low active Reset
bool _reset_B;
power _supply;
prs {
Reset => _reset_B-
}
registers.supply = _supply;
_supply.vss = GND;
_supply.vdd = Vdd;
registers.reset_B = _reset_B;
registers.reset_mem_B = _reset_B;
registers.dly_cfg = dly_cfg;
}
register_test t;

49
test/unit_tests/register_write/test.prsim
View File

@ -1,49 +0,0 @@
watchall
system "echo '[0] start test'"
set-qdi-channel-neutral "t.in" 5
set t.data[0].d[0] 0
set t.data[0].d[1] 0
set t.data[1].d[0] 0
set t.data[1].d[1] 0
set t.registers._in_write.a 0
set t.registers._in_read.a 0
set t.registers._in_write.v 0
set t.registers._in_read.v 0
set Reset 0
cycle
status X
mode run
assert-qdi-channel-neutral "t.in" 5
assert t.data[0].d[0] 0
assert t.data[0].d[1] 0
assert t.data[1].d[0] 0
assert t.data[1].d[1] 0
cycle
system "echo '[1] reset completed'"
# Set delay config lines
set t.dly_cfg[0] 1
set t.dly_cfg[1] 1
cycle
assert-qdi-channel-neutral "t.in" 5
system "echo '[2] delay line set'"
set-qdi-channel-valid "t.in" 5 19
cycle
assert-qdi-channel-valid "t.registers._in_write" 4 3
assert t.registers._clock 0
assert t.registers._out_encoder[0] 1
assert t.registers._out_encoder[1] 0
assert t.registers._out_encoder[2] 0
assert t.registers._out_encoder[3] 0
cycle
set-qdi-channel-neutral "t.in" 5
cycle
assert t.registers._clock 1
assert t.registers.ff[0].q 1
assert t.registers.ff[1].q 1
system "echo '[3] clock checked'"

52
test/unit_tests/register_wrw/test.act
View File

@ -1,52 +0,0 @@
/*************************************************************************
*
* This file is part of ACT dataflow neuro library.
* It's the testing facility for cell_lib_std.act
*
* Copyright (c) 2022 University of Groningen - Ole Richter
* Copyright (c) 2022 University of Groningen - Hugh Greatorex
* Copyright (c) 2022 University of Groningen - Michele Mastella
* Copyright (c) 2022 University of Groningen - Madison Cotteret
*
* This source describes Open Hardware and is licensed under the CERN-OHL-W v2 or later
*
* You may redistribute and modify this documentation and make products
* using it under the terms of the CERN-OHL-W v2 (https:/cern.ch/cern-ohl).
* This documentation is distributed WITHOUT ANY EXPRESS OR IMPLIED
* WARRANTY, INCLUDING OF MERCHANTABILITY, SATISFACTORY QUALITY
* AND FITNESS FOR A PARTICULAR PURPOSE. Please see the CERN-OHL-W v2
* for applicable conditions.
*
* Source location: https://git.web.rug.nl/bics/actlib_dataflow_neuro
*
* As per CERN-OHL-W v2 section 4.1, should You produce hardware based on
* these sources, You must maintain the Source Location visible in its
* documentation.
*
**************************************************************************
*/
import "../../dataflow_neuro/registers.act";
import globals;
open tmpl::dataflow_neuro;
// 2 bits encoder, 2 bits long words, 2 delays????
defproc register_test (avMx1of2<1+2+2> in; avMx1of2<2+2> out;d1of<2> data[1<<2]; bool? dly_cfg[3]){
register_rw<2,2,3> registers(.in=in,.data = data,.out = out);
//Low active Reset
bool _reset_B;
power _supply;
prs {
Reset => _reset_B-
}
registers.supply = _supply;
_supply.vss = GND;
_supply.vdd = Vdd;
registers.reset_B = _reset_B;
registers.reset_mem_B = _reset_B;
registers.dly_cfg = dly_cfg;
}
register_test t;

465
test/unit_tests/register_wrw/test.prsim
View File

@ -1,465 +0,0 @@
watch t.registers.clock_buffer[0].out[0]
watch t.registers.clock_buffer[1].out[0]
watch t.registers.clock_buffer[2].out[0]
watch t.registers.clock_buffer[3].out[0]
system "echo '[0] start test'"
system "echo '----------------------------------------------------------'"
set-qdi-channel-neutral "t.in" 5
set-qdi-channel-neutral "t.out" 4
set t.data[0].d[0] 0
set t.data[0].d[1] 0
set t.data[1].d[0] 0
set t.data[1].d[1] 0
set t.dly_cfg[0] 1
set t.dly_cfg[1] 1
set t.dly_cfg[2] 1
set t.out.a 0
set t.out.v 0
cycle
set t.in.a 0
set Reset 0
cycle
assert-qdi-channel-neutral "t.in" 5
assert-qdi-channel-neutral "t.out" 4
mode run
cycle
# check delay config programming
assert t.registers.clk_dly.s[0] 1
assert t.registers.clk_dly.s[1] 1
assert t.registers.ff[0].q 0
assert t.registers.ff[1].q 0
assert t.registers.ff[2].q 0
assert t.registers.ff[3].q 0
assert t.registers.ff[4].q 0
assert t.registers.ff[5].q 0
assert t.registers.ff[6].q 0
assert t.registers.ff[7].q 0
assert-qdi-channel-neutral "t.out" 4
assert t.data[0].d[0] 0
assert t.data[0].d[1] 0
assert t.data[1].d[0] 0
assert t.data[1].d[1] 0
cycle
system "echo '[1] reset completed'"
system "echo '----------------------------------------------------------'"
set-qdi-channel-valid "t.in" 5 3
# 3 -> 00011 -> writing mode, address 00, word 11
cycle
assert t.in.a 1
assert-qdi-channel-neutral "t.out" 4
assert t.registers._in_v_temp 1
set-qdi-channel-neutral "t.in" 5
cycle
assert t.registers._in_v_temp 0
assert t.registers.ff[0].q 1
assert t.registers.ff[1].q 1
assert t.registers.ff[2].q 0
assert t.registers.ff[3].q 0
assert t.registers.ff[4].q 0
assert t.registers.ff[5].q 0
assert t.registers.ff[6].q 0
assert t.registers.ff[7].q 0
assert t.in.v 0
set t.out.a 0
set t.out.v 0
assert t.in.a 0
cycle
assert t.registers._clock_temp_inv 1
system "echo '[3] first writing done'"
system "echo '----------------------------------------------------------'"
# set-qdi-channel-valid "t.in" 5 16
# # 16 -> 10000 -> reading mode, address 00, word 00 (word doesnt needed here)
# cycle
# assert t.registers._clock_temp_inv 1
# assert t.registers.word_to_read_X[0].out[0] 1
# assert t.registers.word_to_read_X[0].out[1] 1
# assert t.registers.word_to_read_X[0].out[2] 1
# assert t.registers.word_to_read_X[0].out[3] 1
# assert-qdi-channel-valid "t.out" 4 3
# set t.out.v 1
# cycle
# set t.out.a 1
# assert t.registers._clock_temp_inv 1
# cycle
# assert t.in.a 1
# set-qdi-channel-neutral "t.in" 5
# assert t.registers._clock_temp_inv 1
# cycle
# assert t.registers.ff[0].q 1
# assert t.registers.ff[1].q 1
# assert t.registers.ff[2].q 0
# assert t.registers.ff[3].q 0
# assert-qdi-channel-neutral "t.out" 4
# assert t.registers._in_v_temp 0
# set t.out.a 0
# set t.out.v 0
# assert t.in.a 0
# cycle
# system "echo '[4] reading done'"
# system "echo '----------------------------------------------------------'"
# set-qdi-channel-valid "t.in" 5 7
# # 7 -> 00111 -> writing mode, address 01, word 11
# cycle
# assert t.in.a 1
# assert-qdi-channel-neutral "t.out" 4
# assert t.registers._in_v_temp 1
# set-qdi-channel-neutral "t.in" 5
# cycle
# assert t.registers._in_v_temp 0
# assert t.registers.ff[0].q 1
# assert t.registers.ff[1].q 1
# assert t.registers.ff[2].q 1
# assert t.registers.ff[3].q 1
# assert t.registers.ff[4].q 0
# assert t.registers.ff[5].q 0
# assert t.registers.ff[6].q 0
# assert t.registers.ff[7].q 0
# assert t.in.v 0
# set t.out.a 0
# set t.out.v 0
# cycle
# assert t.registers._clock_temp_inv 1
# system "echo '[5] second writing done'"
# system "echo '----------------------------------------------------------'"
# set-qdi-channel-valid "t.in" 5 11
# # 11 -> 01011 -> writing mode, address 10, word 11
# cycle
# assert t.in.a 1
# assert-qdi-channel-neutral "t.out" 4
# assert t.registers._in_v_temp 1
# set-qdi-channel-neutral "t.in" 5
# cycle
# assert t.registers._in_v_temp 0
# assert t.registers.ff[0].q 1
# assert t.registers.ff[1].q 1
# assert t.registers.ff[2].q 1
# assert t.registers.ff[3].q 1
# assert t.registers.ff[4].q 1
# assert t.registers.ff[5].q 1
# assert t.registers.ff[6].q 0
# assert t.registers.ff[7].q 0
# assert t.in.v 0
# set t.out.a 0
# set t.out.v 0
# assert t.in.a 0
# cycle
# system "echo '[6] third writing done'"
# system "echo '----------------------------------------------------------'"
# set-qdi-channel-valid "t.in" 5 15
# # 15 -> 01111 -> writing mode, address 11, word 11
# cycle
# assert t.in.a 1
# assert-qdi-channel-neutral "t.out" 4
# assert t.registers._in_v_temp 1
# set-qdi-channel-neutral "t.in" 5
# cycle
# assert t.registers._in_v_temp 0
# assert t.registers.ff[0].q 1
# assert t.registers.ff[1].q 1
# assert t.registers.ff[2].q 1
# assert t.registers.ff[3].q 1
# assert t.registers.ff[4].q 1
# assert t.registers.ff[5].q 1
# assert t.registers.ff[6].q 1
# assert t.registers.ff[7].q 1
# assert t.in.v 0
# set t.out.a 0
# set t.out.v 0
# assert t.in.a 0
# cycle
# system "echo '[7] fourth writing done'"
# system "echo '----------------------------------------------------------'"
# set-qdi-channel-valid "t.in" 5 28
# # 28 -> 11100 -> reading mode, address 11, word 00 (word doesnt needed here)
# cycle
# assert t.registers._clock_temp_inv 1
# assert-qdi-channel-valid "t.out" 4 15
# set t.out.v 1
# cycle
# set t.out.a 1
# assert t.registers._clock_temp_inv 1
# cycle
# assert t.in.a 1
# set-qdi-channel-neutral "t.in" 5
# assert t.registers._clock_temp_inv 1
# cycle
# assert-qdi-channel-neutral "t.out" 4
# assert t.registers._in_v_temp 0
# set t.out.a 0
# set t.out.v 0
# assert t.in.a 0
# cycle
# system "echo '[8] 11 reading done'"
# system "echo '----------------------------------------------------------'"
# set-qdi-channel-valid "t.in" 5 20
# # 20 -> 10100 -> reading mode, address 01, word 00 (word doesnt needed here)
# cycle
# assert t.registers._clock_temp_inv 1
# assert-qdi-channel-valid "t.out" 4 7
# set t.out.v 1
# cycle
# set t.out.a 1
# assert t.registers._clock_temp_inv 1
# cycle
# assert t.in.a 1
# set-qdi-channel-neutral "t.in" 5
# assert t.registers._clock_temp_inv 1
# cycle
# assert-qdi-channel-neutral "t.out" 4
# assert t.registers._in_v_temp 0
# set t.out.a 0
# set t.out.v 0
# assert t.in.a 0
# cycle
# system "echo '[9] 01 reading done'"
# system "echo '----------------------------------------------------------'"
# set-qdi-channel-valid "t.in" 5 24
# # 24 -> 11000 -> reading mode, address 10, word 00 (word doesnt needed here)
# cycle
# assert t.registers._clock_temp_inv 1
# assert-qdi-channel-valid "t.out" 4 11
# set t.out.v 1
# cycle
# set t.out.a 1
# assert t.registers._clock_temp_inv 1
# cycle
# assert t.in.a 1
# set-qdi-channel-neutral "t.in" 5
# assert t.registers._clock_temp_inv 1
# cycle
# assert-qdi-channel-neutral "t.out" 4
# assert t.registers._in_v_temp 0
# set t.out.a 0
# set t.out.v 0
# assert t.in.a 0
# cycle
# system "echo '[8] 10 reading done'"
# system "echo '----------------------------------------------------------'"
# set-qdi-channel-valid "t.in" 5 13
# # 13 -> 01101 -> writing mode, address 11, word 01
# cycle
# assert t.in.a 1
# assert-qdi-channel-neutral "t.out" 4
# assert t.registers._in_v_temp 1
# set-qdi-channel-neutral "t.in" 5
# cycle
# assert t.registers._in_v_temp 0
# assert t.registers.ff[0].q 1
# assert t.registers.ff[1].q 1
# assert t.registers.ff[2].q 1
# assert t.registers.ff[3].q 1
# assert t.registers.ff[4].q 1
# assert t.registers.ff[5].q 1
# assert t.registers.ff[6].q 1
# assert t.registers.ff[7].q 1
# assert t.in.v 0
# set t.out.a 0
# set t.out.v 0
# assert t.in.a 0
# cycle
# system "echo '[9] Rewrite 11 to 01'"
# system "echo '----------------------------------------------------------'"
# set-qdi-channel-valid "t.in" 5 0
# # 13 -> 00000 -> writing mode, address 00, word 00
# cycle
# assert t.in.a 1
# assert-qdi-channel-neutral "t.out" 4
# assert t.registers._in_v_temp 1
# set-qdi-channel-neutral "t.in" 5
# cycle
# assert t.registers._in_v_temp 0
# assert t.registers.ff[0].q 0
# assert t.registers.ff[1].q 0
# assert t.registers.ff[2].q 1
# assert t.registers.ff[3].q 1
# assert t.registers.ff[4].q 1
# assert t.registers.ff[5].q 1
# assert t.registers.ff[6].q 1
# assert t.registers.ff[7].q 1
# assert t.in.v 0
# set t.out.a 0
# set t.out.v 0
# assert t.in.a 0
# cycle
# system "echo '[9] Rewrite 11 to 01'"
# system "echo '----------------------------------------------------------'"
# set-qdi-channel-valid "t.in" 5 0
# # 0 -> 00000 -> writing mode, address 00, word 00
# cycle
# assert t.in.a 1
# assert-qdi-channel-neutral "t.out" 4
# assert t.registers._in_v_temp 1
# set-qdi-channel-neutral "t.in" 5
# cycle
# assert t.registers._in_v_temp 0
# assert t.registers.ff[0].q 0
# assert t.registers.ff[1].q 0
# assert t.registers.ff[2].q 1
# assert t.registers.ff[3].q 1
# assert t.registers.ff[4].q 1
# assert t.registers.ff[5].q 1
# assert t.registers.ff[6].q 1
# assert t.registers.ff[7].q 0
# assert t.in.v 0
# set t.out.a 0
# set t.out.v 0
# assert t.in.a 0
# cycle
# system "echo '[9] Rewrite 11 to 01'"
# system "echo '----------------------------------------------------------'"
# set-qdi-channel-valid "t.in" 5 0
# # 0 -> 00000 -> writing mode, address 00, word 00
# cycle
# assert t.in.a 1
# assert-qdi-channel-neutral "t.out" 4
# assert t.registers._in_v_temp 1
# set-qdi-channel-neutral "t.in" 5
# cycle
# assert t.registers._in_v_temp 0
# assert t.registers.ff[0].q 0
# assert t.registers.ff[1].q 0
# assert t.registers.ff[2].q 1
# assert t.registers.ff[3].q 1
# assert t.registers.ff[4].q 1
# assert t.registers.ff[5].q 1
# assert t.registers.ff[6].q 1
# assert t.registers.ff[7].q 0
# assert t.in.v 0
# set t.out.a 0
# set t.out.v 0
# assert t.in.a 0
# cycle
# system "echo '[9] Rewrite 11 to 01'"
# system "echo '----------------------------------------------------------'"
# set-qdi-channel-valid "t.in" 5 0
# # 13 -> 00000 -> writing mode, address 00, word 00
# cycle
# assert t.in.a 1
# assert-qdi-channel-neutral "t.out" 4
# assert t.registers._in_v_temp 1
# set-qdi-channel-neutral "t.in" 5
# cycle
# assert t.registers._in_v_temp 0
# assert t.registers.ff[0].q 0
# assert t.registers.ff[1].q 0
# assert t.registers.ff[2].q 1
# assert t.registers.ff[3].q 1
# assert t.registers.ff[4].q 1
# assert t.registers.ff[5].q 1
# assert t.registers.ff[6].q 1
# assert t.registers.ff[7].q 0
# assert t.in.v 0
# set t.out.a 0
# set t.out.v 0
# assert t.in.a 0
# cycle
# system "echo '[9] Rewrite 11 to 01'"
# system "echo '----------------------------------------------------------'"
# set-qdi-channel-valid "t.in" 5 3
# # 13 -> 00011 -> writing mode, address 00, word 11
# cycle
# assert t.in.a 1
# assert-qdi-channel-neutral "t.out" 4
# assert t.registers._in_v_temp 1
# set-qdi-channel-neutral "t.in" 5
# cycle
# assert t.registers._in_v_temp 0
# assert t.registers.ff[0].q 1
# assert t.registers.ff[1].q 1
# assert t.registers.ff[2].q 1
# assert t.registers.ff[3].q 1
# assert t.registers.ff[4].q 1
# assert t.registers.ff[5].q 1
# assert t.registers.ff[6].q 1
# assert t.registers.ff[7].q 0
# assert t.in.v 0
# set t.out.a 0
# set t.out.v 0
# assert t.in.a 0
# cycle
# system "echo '[9] Rewrite 11 to 01'"
# system "echo '----------------------------------------------------------'"