Merge remote-tracking branch 'origin/master' into xc7mux

Makefile

@@ -8,6 +8,10 @@ else
 export YOSYS_NOVERIFIC=1
 endif
 
+ifeq ($(ENABLE_HEAVY_TESTS),1)
+export ENABLE_HEAVY_TESTS=1
+endif
+
 all: $(addsuffix /.stamp,$(SUBDIRS))
 	echo; find * -name "*.status" | sort | xargs grep -H . | sed 's,^,    ,; s,.status:,\t,; s,PASS,pass,;' | expand -t100; echo
 	touch .stamp

architecture/Makefile

@@ -69,7 +69,10 @@ $(eval $(call template,synth_sf2_error,synth_sf2_fully_selected ))
 #xilinx
 $(eval $(call template,synth_xilinx,synth_xilinx synth_xilinx_top synth_xilinx_blif synth_xilinx_edif synth_xilinx_run synth_xilinx_flatten synth_xilinx_retime synth_xilinx_vpr synth_xilinx_arch_xcup synth_xilinx_arch_xcu synth_xilinx_arch_xc7 synth_xilinx_arch_xc6s synth_xilinx_nobram synth_xilinx_nodram synth_xilinx_nosrl))
 $(eval $(call template,synth_xilinx_error,synth_xilinx_fully_selected synth_xilinx_invalid_arch ))
+ifeq ($(ENABLE_HEAVY_TESTS),1)
+$(eval $(call template,synth_xilinx_srl,synth_xilinx_srl))
 $(eval $(call template,synth_xilinx_mux,synth_xilinx_mux))
+endif
 
 #greenpak4
 $(eval $(call template,synth_greenpak4,synth_greenpak4 synth_greenpak4_top synth_greenpak4_json synth_greenpak4_run synth_greenpak4_noflatten synth_greenpak4_retime synth_greenpak4_part621 synth_greenpak4_part620 synth_greenpak4_part140))

architecture/scripts/synth_xilinx_srl.ys

+script ../yosys.ys TEST1

architecture/synth_xilinx_srl/generate.py

+#!/usr/bin/python3
+
+N = 131
+
+# Test 1: pos_clk_no_enable_no_init_not_inferred
+for i in range(1,N+1):
+    with open('test1_%d.v' % i, 'w') as fp:
+        fp.write('''
+module test1_{0} #(parameter width=1, depth={0}) (input clk, input [width-1:0] i, output [width-1:0] q);
+generate 
+    wire [depth:0] int [width-1:0];
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        assign int[w][0] = i[w];
+        for (d = 0; d < depth; d=d+1) begin
+            \$_DFFE_PP_ r(.C(clk), .D(int[w][d]), .E(1'b1), .Q(int[w][d+1]));
+        end
+        assign q[w] = int[w][depth];
+    end
+endgenerate
+endmodule
+'''.format(i))
+
+# Test 2: pos_clk_with_enable_no_init_not_inferred
+for i in range(1,N+1):
+    with open('test2_%d.v' % i, 'w') as fp:
+        fp.write('''
+module test2_{0} #(parameter width=1, depth={0}) (input clk, input [width-1:0] i, input e, output [width-1:0] q);
+generate 
+    wire [depth:0] int [width-1:0];
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        assign int[w][0] = i[w];
+        for (d = 0; d < depth; d=d+1) begin
+            \$_DFFE_PP_ r(.C(clk), .D(int[w][d]), .E(e), .Q(int[w][d+1]));
+        end
+        assign q[w] = int[w][depth];
+    end
+endgenerate
+endmodule
+'''.format(i))
+
+# Test 3: pos_clk_with_enable_with_init_inferred
+for i in range(1,N+1):
+    with open('test3_%d.v' % i, 'w') as fp:
+        fp.write('''
+module test3_{0} #(parameter width=1, depth={0}) (input clk, input [width-1:0] i, input e, output [width-1:0] q);
+generate 
+    reg [depth-1:0] int [width-1:0];
+
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        for (d = 0; d < depth; d=d+1)
+            initial int[w][d] <= ~((d+w) % 2);
+
+        if (depth == 1) begin
+            always @(posedge clk) if (e) int[w] <= i[w];
+            assign q[w] = int[w];
+        end
+        else begin
+            always @(posedge clk) if (e) int[w] <= {{ int[w][depth-2:0], i[w] }};
+            assign q[w] = int[w][depth-1];
+        end
+    end
+endgenerate
+endmodule
+'''.format(i))
+
+# Test 4: neg_clk_no_enable_no_init_not_inferred
+for i in range(1,N+1):
+    with open('test4_%d.v' % i, 'w') as fp:
+        fp.write('''
+module test4_{0} #(parameter width=1, depth={0}) (input clk, input [width-1:0] i, output [width-1:0] q);
+generate 
+    wire [depth:0] int [width-1:0];
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        assign int[w][0] = i[w];
+        for (d = 0; d < depth; d=d+1) begin
+            \$_DFFE_NP_ r(.C(clk), .D(int[w][d]), .E(1'b1), .Q(int[w][d+1]));
+        end
+        assign q[w] = int[w][depth];
+    end
+endgenerate
+endmodule
+'''.format(i))
+
+# Test 5: neg_clk_no_enable_no_init_inferred
+for i in range(1,N+1):
+    with open('test5_%d.v' % i, 'w') as fp:
+        fp.write('''
+module test5_{0} #(parameter width=1, depth={0}) (input clk, input [width-1:0] i, output [width-1:0] q);
+generate 
+    reg [depth-1:0] int [width-1:0];
+
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        if (depth == 1) begin
+            always @(negedge clk) int[w] <= i[w];
+            assign q[w] = int[w];
+        end
+        else begin
+            always @(negedge clk) int[w] <= {{ int[w][depth-2:0], i[w] }};
+            assign q[w] = int[w][depth-1];
+        end
+    end
+endgenerate
+endmodule
+'''.format(i))
+
+# Test 6: neg_clk_with_enable_with_init_inferred
+for i in range(1,N+1):
+    with open('test6_%d.v' % i, 'w') as fp:
+        fp.write('''
+module test6_{0} #(parameter width=1, depth={0}) (input clk, input [width-1:0] i, input e, output [width-1:0] q);
+generate 
+    reg [depth-1:0] int [width-1:0];
+
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        for (d = 0; d < depth; d=d+1)
+            initial int[w][d] <= ~((d+w) % 2);
+
+        if (depth == 1) begin
+            always @(negedge clk) if (e) int[w] <= i[w];
+            assign q[w] = int[w];
+        end
+        else begin
+            always @(negedge clk) if (e) int[w] <= {{ int[w][depth-2:0], i[w] }};
+            assign q[w] = int[w][depth-1];
+        end
+    end
+endgenerate
+endmodule
+'''.format(i))
+
+# Test 10: pos_clk_no_enable_no_init_not_inferred_var_len
+for i in range(1,N+1):
+    with open('test10_%d.v' % i, 'w') as fp:
+        fp.write('''
+module test10_{0} #(parameter width=1, depth={0}) (input clk, input [width-1:0] i, input [31:0] l, output [width-1:0] q);
+generate 
+    wire [depth:0] int [width-1:0];
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        assign int[w][0] = i[w];
+        for (d = 0; d < depth; d=d+1) begin
+            \$_DFFE_PP_ r(.C(clk), .D(int[w][d]), .E(1'b1), .Q(int[w][d+1]));
+        end
+        wire [depth-1:0] t;
+        assign t = int[w][depth:1];
+        assign q[w] = t[l];
+    end
+endgenerate
+endmodule
+'''.format(i))
+
+# Test 11: neg_clk_with_enable_with_init_inferred_var_len
+for i in range(1,N+1):
+    with open('test11_%d.v' % i, 'w') as fp:
+        fp.write('''
+module test11_{0} #(parameter width=1, depth={0}) (input clk, input [width-1:0] i, input e, input [31:0] l, output [width-1:0] q);
+generate 
+    reg [depth-1:0] int [width-1:0];
+
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        for (d = 0; d < depth; d=d+1)
+            initial int[w][d] <= ~((d+w) % 2);
+
+        if (depth == 1) begin
+            always @(negedge clk) if (e) int[w] <= i[w];
+            assign q[w] = int[w];
+        end
+        else begin
+            always @(negedge clk) if (e) int[w] <= {{ int[w][depth-2:0], i[w] }};
+            assign q[w] = int[w][l];
+        end
+    end
+endgenerate
+endmodule
+'''.format(i))
+
+# Test 15: pos_clk_no_enable_no_init_not_inferred
+for i in range(128+1,128+N+1):
+    with open('test15_%d.v' % i, 'w') as fp:
+        fp.write('''
+module test15_{0} #(parameter width=1, depth={0}) (input clk, input [width-1:0] i, output [width-1:0] q);
+generate 
+    wire [depth:0] int [width-1:0];
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        assign int[w][0] = i[w];
+        for (d = 0; d < depth; d=d+1) begin
+            \$_DFFE_PP_ r(.C(clk), .D(int[w][d]), .E(1'b1), .Q(int[w][d+1]));
+        end
+        assign q[w] = int[w][depth];
+    end
+endgenerate
+endmodule
+'''.format(i))
+
+# Test 16: neg_clk_with_enable_with_init_inferred_var_len
+for i in range(128+1,128+N+1):
+    with open('test16_%d.v' % i, 'w') as fp:
+        fp.write('''
+module test16_{0} #(parameter width=1, depth={0}) (input clk, input [width-1:0] i, input e, input [31:0] l, output [width-1:0] q);
+generate 
+    reg [depth-1:0] int [width-1:0];
+
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        for (d = 0; d < depth; d=d+1)
+            initial int[w][d] <= ~((d+w) % 2);
+
+        if (depth == 1) begin
+            always @(negedge clk) if (e) int[w] <= i[w];
+            assign q[w] = int[w];
+        end
+        else begin
+            always @(negedge clk) if (e) int[w] <= {{ int[w][depth-2:0], i[w] }};
+            assign q[w] = int[w][l];
+        end
+    end
+endgenerate
+endmodule
+'''.format(i))
+
+# Test 18: neg_clk_with_enable_with_init_inferred2
+for i in range(1,N+1):
+    with open('test18_%d.v' % i, 'w') as fp:
+        fp.write('''
+module test18_{0} #(parameter width=1, depth={0}) (input clk, input [width-1:0] i, input e, output [width-1:0] q);
+generate 
+    reg [width-1:0] int [depth-1:0];
+
+    genvar w, d;
+    for (d = 0; d < depth; d=d+1) begin
+        for (w = 0; w < width; w=w+1) begin
+            initial int[d][w] <= ~((d+w) % 2);
+
+            if (d == 0) begin
+                always @(negedge clk) if (e) int[d][w] <= i[w];
+            end
+            else begin
+                always @(negedge clk) if (e) int[d][w] <= int[d-1][w];
+            end
+        end
+    end
+    assign q = int[depth-1];
+endgenerate
+endmodule'''.format(i))
+
+# Test 19: pos_clk_with_enable_no_init_inferred2_var_len
+for i in range(1,N+1):
+    with open('test19_%d.v' % i, 'w') as fp:
+        fp.write('''
+module test19_{0} #(parameter width=1, depth={0}) (input clk, input [width-1:0] i, input e, input [31:0] l, output [width-1:0] q);
+generate 
+    reg [width-1:0] int [depth-1:0];
+
+    genvar w, d;
+    for (d = 0; d < depth; d=d+1) begin
+        for (w = 0; w < width; w=w+1) begin
+            initial int[d][w] <= ~((d+w) % 2);
+
+            if (d == 0) begin
+                always @(posedge clk) if (e) int[d][w] <= i[w];
+            end
+            else begin
+                always @(posedge clk) if (e) int[d][w] <= int[d-1][w];
+            end
+        end
+    end
+    assign q = int[l];
+endgenerate
+endmodule'''.format(i))

architecture/synth_xilinx_srl/run-test.sh

+#!/bin/bash
+shopt -s extglob
+
+OPTIND=1
+seed=""    # default to no seed specified
+while getopts "S:" opt
+do
+    case "$opt" in
+	S) arg="${OPTARG#"${OPTARG%%[![:space:]]*}"}" # remove leading space
+	   seed="SEED=$arg" ;;
+    esac
+done
+shift "$((OPTIND-1))"
+
+# check for Icarus Verilog
+if ! which iverilog > /dev/null ; then
+  echo "$0: Error: Icarus Verilog 'iverilog' not found."
+  exit 1
+fi
+
+wget https://raw.githubusercontent.com/YosysHQ/yosys-bench/master/verilog/benchmarks_small/lfsr/generate.py -O generate_lfsr.py -o /dev/null
+python3 generate_lfsr.py
+python3 ../generate.py
+cp ../*.v .
+${MAKE:-make} -f ../../../../tools/autotest.mk $seed !(test21*).v EXTRA_FLAGS="-f 'verilog -noblackbox -icells' -p 'synth_xilinx' -l ../../../../../techlibs/xilinx/cells_sim.v"
+${MAKE:-make} -f ../../../../tools/autotest.mk $seed test21*.v EXTRA_FLAGS="-f 'verilog -noblackbox -icells' -p 'synth_xilinx -retime' -l ../../../../../techlibs/xilinx/cells_sim.v"
+
+cp ../*.ys .
+for ys in *.ys; do
+    yosys -q $ys
+done

architecture/synth_xilinx_srl/test13.ys

+# Check that non chain users block SRLs
+design -reset; read_verilog test13a.out/test13a_syn0.v; select t:SRL* -assert-count 0
+design -reset; read_verilog test13b.out/test13b_syn0.v; select t:SRL* -assert-count 0
+design -reset; read_verilog test13c.out/test13c_syn0.v; select t:SRL* -assert-count 0
+design -reset; read_verilog test13d.out/test13d_syn0.v; select t:SRL* -assert-count 0

architecture/synth_xilinx_srl/test13a.v

+// Check that non chain users block SRLs
+// (i.e. output port, in non flattened case)
+// sr_fixed_length_other_users_port
+module test13a #(parameter width=1, depth=130) (input clk, input [width-1:0] i, output [width-1:0] q, output [depth-1:0] state);
+generate 
+    wire [depth:0] int [width-1:0];
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        assign int[w][0] = i[w];
+        for (d = 0; d < depth; d=d+1) begin
+            \$_DFFE_PP_ r(.C(clk), .D(int[w][d]), .E(1'b1), .Q(int[w][d+1]));
+        end
+        assign q[w] = int[w][depth];
+    end
+    assign state = int[0][depth:1];
+endgenerate
+endmodule

architecture/synth_xilinx_srl/test13b.v

+// Check that non chain users block SRLs
+// (i.e. output port, in non flattened case)
+// sr_var_length_other_users_port
+module test13b #(parameter width=1, depth=130) (input clk, input [width-1:0] i, input e, input [31:0] l, output [width-1:0] q, output [depth-1:0] state);
+generate 
+    reg [depth-1:0] int [width-1:0];
+
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        for (d = 0; d < depth; d=d+1)
+            initial int[w][d] <= ~((d+w) % 2);
+
+        if (depth == 1) begin
+            always @(negedge clk) if (e) int[w] <= i[w];
+            assign q[w] = int[w];
+        end
+        else begin
+            always @(negedge clk) if (e) int[w] <= {{ int[w][depth-2:0], i[w] }};
+            assign q[w] = int[w][l];
+        end
+    end
+    assign state = int[0];
+endgenerate
+endmodule

architecture/synth_xilinx_srl/test13c.v

+// Check that non chain users block SRLs
+// (i.e. output port, in non flattened case)
+// sr_fixed_length_other_users_xor
+module test13c #(parameter width=1, depth=130) (input clk, input [width-1:0] i, input e, output [width-1:0] q, output [depth-1:0] state);
+generate 
+    wire [depth:0] int [width-1:0];
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        assign int[w][0] = i[w];
+        for (d = 0; d < depth; d=d+1) begin
+            \$_DFFE_PP_ r(.C(clk), .D(int[w][d]), .E(1'b1), .Q(int[w][d+1]));
+        end
+        assign q[w] = int[w][depth];
+    end
+    assign state = int[0][depth:1];
+endgenerate
+endmodule

architecture/synth_xilinx_srl/test13d.v

+// Check that non chain users block SRLs
+// (i.e. output port, in non flattened case)
+// sr_var_length_other_users_xor
+module test13c #(parameter width=1, depth=130) (input clk, input [width-1:0] i, input e, input [31:0] l, output [width-1:0] q, output [depth-1:0] state);
+generate 
+    reg [depth-1:0] int [width-1:0];
+
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        for (d = 0; d < depth; d=d+1)
+            initial int[w][d] <= ~((d+w) % 2);
+
+        if (depth == 1) begin
+            always @(negedge clk) if (e) int[w] <= i[w];
+            assign q[w] = int[w];
+        end
+        else begin
+            always @(negedge clk) if (e) int[w] <= {{ int[w][depth-2:0], i[w] }};
+            assign q[w] = int[w][l];
+        end
+    end
+    assign state = {depth{^int[0]}};
+endgenerate
+endmodule

architecture/synth_xilinx_srl/test17.ys

+design -reset; read_verilog test17a.out/test17a_syn0.v; select t:SRL16E -assert-count 1; select t:* t:SRL16E %d -assert-count 0;
+design -reset; read_verilog test17b.out/test17b_syn0.v; select t:SRL16E -assert-count 1; select t:* t:SRL16E %d -assert-count 0;
+design -reset; read_verilog test17c.out/test17c_syn0.v; select t:SRL16E -assert-count 2; select t:* t:SRL16E %d -assert-count 0;
+design -reset; read_verilog test17d.out/test17d_syn0.v; select t:SRL16E -assert-count 2; select t:FD* -assert-count 1; select t:* t:SRL16E %d t:FD* %d -assert-count 0;
+design -reset; read_verilog test17e.out/test17e_syn0.v; select t:SRL16E -assert-count 1; select t:* t:SRL16E %d -assert-count 0;

architecture/synth_xilinx_srl/test17a.v

+// Check inference even when not in vector
+module test17a (input clk, input i, output q);
+generate 
+    reg a1, a2, a3, a4, a5, a6, a7, a8;
+    always @(posedge clk) a1 <= i;
+    always @(posedge clk) a2 <= a1;
+    always @(posedge clk) a3 <= a2;
+    always @(posedge clk) a4 <= a3;
+    always @(posedge clk) a5 <= a4;
+    always @(posedge clk) a6 <= a5;
+    always @(posedge clk) a7 <= a6;
+    always @(posedge clk) a8 <= a7;
+    assign q = a8;
+endgenerate
+endmodule

architecture/synth_xilinx_srl/test17b.v

+// Check inference even when not in vector
+module test17a (input clk, input i, input e, output q);
+generate 
+   reg a1, a2, a3, a4, a5, a6, a7, a8;
+   always @(posedge clk) if (e) {a8,a7,a6,a5,a4,a3,a2,a1} <= {a7,a6,a5,a4,a3,a2,a1,i};
+   assign q = a8;
+endgenerate
+endmodule

architecture/synth_xilinx_srl/test17c.v

+// Check inference even when keep attribute specified
+module test17c (input clk, input i, input e, output q);
+generate 
+    reg a1, a2, a3;
+    (* keep *) reg a4;
+    reg a5, a6, a7, a8;
+    always @(negedge clk) if (e) {a8,a7,a6,a5,a4,a3,a2,a1} <= {a7,a6,a5,a4,a3,a2,a1,i};
+    assign q = a8;
+endgenerate
+endmodule

architecture/synth_xilinx_srl/test17d.v

+// Check inference even when keep attribute specified
+module test17d (input clk, input i, input e, output q);
+generate 
+    reg a1, a2;
+    (* keep *) reg a3;
+    (* keep *) reg a4;
+    reg a5, a6, a7, a8;
+    always @(negedge clk) if (e) {a8,a7,a6,a5,a4,a3,a2,a1} <= {a7,a6,a5,a4,a3,a2,a1,i};
+    assign q = a8;
+endgenerate
+endmodule

architecture/synth_xilinx_srl/test17e.v

+// Check inference even when keep attribute specified
+module test17d (input clk, input i, input e, output q);
+generate 
+    reg a1, a2;
+    (* blah *) reg a3;
+    reg a4, a5, a6;
+    (* boo *) reg a7;
+    reg a8;
+    always @(negedge clk) if (e) {a8,a7,a6,a5,a4,a3,a2,a1} <= {a7,a6,a5,a4,a3,a2,a1,i};
+    assign q = a8;
+endgenerate
+endmodule
+

architecture/synth_xilinx_srl/test20.v

+module test20 #(parameter width=130, depth=130) (input clk, input [width-1:0] i, input e, output [width-1:0] q);
+generate 
+    reg [width-1:0] int [depth-1:0];
+
+    genvar w, d;
+    for (d = 0; d < depth; d=d+1) begin
+        for (w = 0; w < width; w=w+1) begin
+            initial int[d][w] <= ~((d+w) % 2);
+
+            if (d == 0) begin
+                always @(negedge clk) if (e) int[d][w] <= i[w];
+            end
+            else begin
+                always @(negedge clk) if (e) int[d][w] <= int[d-1][w];
+            end
+        end
+    end
+    assign z = int[depth-1];
+endgenerate
+endmodule

architecture/synth_xilinx_srl/test20.ys

+design -reset; read_verilog test20.out/test20_syn0.v; select t:FD* -assert-count 0

architecture/synth_xilinx_srl/test21.ys

+# Check that retiming does not infer shift registers
+design -reset; read_verilog test21a.out/test21a_syn0.v; select t:SRL* -assert-count 0; select t:FD* -assert-min 20
+design -reset; read_verilog test21b.out/test21b_syn0.v; select t:SRL* -assert-count 0; select t:FD* -assert-min 20

architecture/synth_xilinx_srl/test21a.v

+module test21a #(parameter width=130, depth=4) (input clk, input [width-1:0] i, output q);
+    genvar d;
+    wire [depth:0] int;
+    assign int[0] = ^i[width-1:0];
+    generate 
+        for (d = 0; d < depth; d=d+1) begin
+            \$_DFFE_PP_ r(.C(clk), .D(int[d]), .E(1'b1), .Q(int[d+1]));
+        end
+    endgenerate 
+    assign q = int[depth];
+endmodule

architecture/synth_xilinx_srl/test21b.v

+module test21b #(parameter width=130, depth=4) (input clk, input [width-1:0] i, input e, output q);
+    reg [depth-1:0] int;
+
+    genvar d;
+    for (d = 0; d < depth; d=d+1)
+        initial int[d] <= ~(d % 2);
+
+    if (depth == 1) begin
+        always @(negedge clk) if (e) int <= ~^i[width-1:0];
+        assign q = int;
+    end
+    else begin
+        always @(negedge clk) if (e) int <= { int[depth-2:0], ~^i[width-1:0] };
+        assign q = int[depth-1];
+    end
+endmodule

architecture/synth_xilinx_srl/test7.ys

+# Check that shift registers with resets are not inferred into SRLs
+design -reset; read_verilog test7a.out/test7a_syn0.v; select t:SRL* -assert-count 0
+design -reset; read_verilog test7b.out/test7b_syn0.v; select t:SRL* -assert-count 0
+design -reset; read_verilog test7c.out/test7c_syn0.v; select t:SRL* -assert-count 0
+design -reset; read_verilog test7d.out/test7d_syn0.v; select t:SRL* -assert-count 0

architecture/synth_xilinx_srl/test7a.v

+// Check that use of resets block shreg
+// pos_clk_no_enable_no_init_not_inferred_with_reset
+module test7a #(parameter width=1, depth=130) (input clk, input [width-1:0] i, input r, output [width-1:0] q);
+generate 
+    wire [depth:0] int [width-1:0];
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        assign int[w][0] = i[w];
+        for (d = 0; d < depth; d=d+1) begin
+            \$_DFF_PP0_ r(.C(clk), .D(int[w][d]), .R(r), .Q(int[w][d+1]));
+        end
+        assign q[w] = int[w][depth];
+    end
+endgenerate
+endmodule

architecture/synth_xilinx_srl/test7b.v

+// Check that use of resets block shreg
+// neg_clk_no_enable_with_init_with_inferred_with_reset
+module test7b #(parameter width=1, depth=130) (input clk, input [width-1:0] i, input r, output [width-1:0] q);
+generate 
+    reg [depth-1:0] int [width-1:0];
+
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        for (d = 0; d < depth; d=d+1)
+            initial int[w][d] <= ~((d+w) % 2);
+
+        if (depth == 1) begin
+            always @(negedge clk or posedge r) if (r) int[w] <= 1'b0; else int[w] <= i[w];
+            assign q[w] = int[w];
+        end
+        else begin
+            always @(negedge clk or posedge r) if (r) int[w] <= {width{1'b0}}; else int[w] <= { int[w][depth-2:0], i[w] };
+            assign q[w] = int[w][depth-1];
+        end
+    end
+endgenerate
+endmodule

architecture/synth_xilinx_srl/test7c.v

+// Check that use of resets block shreg
+// pos_clk_no_enable_no_init_not_inferred_with_reset_var_len
+module test7c #(parameter width=1, depth=130) (input clk, input [width-1:0] i, input r, input [31:0] l, output [width-1:0] q);
+generate 
+    wire [depth:0] int [width-1:0];
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        assign int[w][0] = i[w];
+        for (d = 0; d < depth; d=d+1) begin
+            \$_DFF_PP0_ r(.C(clk), .D(int[w][d]), .R(r), .Q(int[w][d+1]));
+        end
+        wire [depth-1:0] t;
+        assign t = int[w][depth:1];
+        assign q[w] = t[l];
+    end
+endgenerate
+endmodule

architecture/synth_xilinx_srl/test7d.v

+// Check that use of resets block shreg
+// neg_clk_no_enable_with_init_with_inferred_with_reset_var_len
+module test7d #(parameter width=1, depth=130) (input clk, input [width-1:0] i, input r, input [31:0] l, output [width-1:0] q);
+generate 
+    reg [depth-1:0] int [width-1:0];
+
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        for (d = 0; d < depth; d=d+1)
+            initial int[w][d] <= ~((d+w) % 2);
+
+        if (depth == 1) begin
+            always @(negedge clk or posedge r) if (r) int[w] <= 1'b0; else int[w] <= a[w];
+            assign q[w] = int[w];
+        end
+        else begin
+            always @(negedge clk or posedge r) if (r) int[w] <= {width{1'b0}}; else int[w] <= {{ int[w][depth-2:0], i[w] }};
+            assign q[w] = int[w][l];
+        end
+    end
+endgenerate
+endmodule

architecture/synth_xilinx_srl/test8.v

+// Check multi-bit works
+// pos_clk_no_enable_no_init_not_inferred_N_width
+module test8 #(parameter width=130, depth=130) (input clk, input [width-1:0] i, output [width-1:0] q);
+generate 
+    wire [depth:0] int [width-1:0];
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        assign int[w][0] = i[w];
+        for (d = 0; d < depth; d=d+1) begin
+            \$_DFFE_PP_ r(.C(clk), .D(int[w][d]), .E(1'b0), .Q(int[w][d+1]));
+        end
+        assign q[w] = int[w][depth];
+    end
+endgenerate
+endmodule

architecture/synth_xilinx_srl/test8.ys

+# Check that wide shift registers are not a problem
+read_verilog test8.out/test8_syn0.v; select t:FD* -assert-count 0

architecture/synth_xilinx_srl/test9.v

+// Check multi-bit works
+// neg_clk_no_enable_with_init_with_inferred_N_width
+module test9 #(parameter width=130, depth=130) (input clk, input [width-1:0] i, output [width-1:0] q);
+generate 
+    reg [depth-1:0] int [width-1:0];
+
+    genvar w, d;
+    for (w = 0; w < width; w=w+1) begin
+        for (d = 0; d < depth; d=d+1)
+            initial int[w][d] <= ~((d+w) % 2);
+
+        if (depth == 1) begin
+            always @(negedge clk) int[w] <= i[w];
+            assign q[w] = int[w];
+        end
+        else begin
+            always @(negedge clk) int[w] <= { int[w][depth-2:0], i[w] };
+            assign q[w] = int[w][depth-1];
+        end
+    end
+endgenerate
+endmodule

architecture/synth_xilinx_srl/test9.ys

+read_verilog test9.out/test9_syn0.v; select t:FD* -assert-count 0

architecture/synth_xilinx_srl/ug901.ys

+design -reset; read_verilog ug901a.out/ug901a_syn0.v; select t:SRLC32E -assert-count 1
+design -reset; read_verilog ug901b.out/ug901b_syn0.v; select t:SRLC32E -assert-count 1
+design -reset; read_verilog ug901c.out/ug901c_syn0.v; select t:SRLC32E -assert-count 1

architecture/synth_xilinx_srl/ug901a.v

+// https://www.xilinx.com/support/documentation/sw_manuals/xilinx2018_3/ug901-vivado-synthesis.pdf
+
+// 8-bit Shift Register
+// Rising edge clock
+// Active high clock enable
+// Concatenation-based template
+// File: shift_registers_0.v
+module shift_registers_0 (clk, clken, SI, SO);
+parameter WIDTH = 32;
+input clk, clken, SI;
+output SO;
+reg [WIDTH-1:0] shreg;
+always @(posedge clk)
+begin
+	if (clken)
+		shreg <= {shreg[WIDTH-2:0], SI};
+end
+assign SO = shreg[WIDTH-1];
+endmodule

architecture/synth_xilinx_srl/ug901b.v

+// https://www.xilinx.com/support/documentation/sw_manuals/xilinx2018_3/ug901-vivado-synthesis.pdf
+
+// 32-bit Shift Register
+// Rising edge clock
+// Active high clock enable
+// For-loop based template
+// File: shift_registers_1.v
+module shift_registers_1 (clk, clken, SI, SO);
+parameter WIDTH = 32;
+input clk, clken, SI;
+output SO;
+reg [WIDTH-1:0] shreg;
+integer i;
+always @(posedge clk)
+begin
+    if (clken)
+    begin
+        for (i = 0; i < WIDTH-1; i = i+1)
+            shreg[i+1] <= shreg[i];
+        shreg[0] <= SI;
+    end
+end
+assign SO = shreg[WIDTH-1];
+endmodule
+

architecture/synth_xilinx_srl/ug901c.v

+// https://www.xilinx.com/support/documentation/sw_manuals/xilinx2018_3/ug901-vivado-synthesis.pdf
+
+// 32-bit dynamic shift register.
+// Download:
+// File: dynamic_shift_registers_1.v
+module dynamic_shift_register_1 (CLK, CE, SEL, SI, DO);
+parameter SELWIDTH = 5;
+input CLK, CE, SI;
+input [SELWIDTH-1:0] SEL;
+output DO;
+localparam DATAWIDTH = 2**SELWIDTH;
+reg [DATAWIDTH-1:0] data;
+assign DO = data[SEL];
+always @(posedge CLK)
+ begin
+ if (CE == 1'b1)
+ data <= {data[DATAWIDTH-2:0], SI};
+ end
+endmodule

frontends/read_aiger_ff/testbench.v

@@ -22,10 +22,10 @@ module testbench;
 
     top uut (
         .clk (clk ),
-        .n1 (n1 ),
-        .n2 (n2 ),
-        .n3 (n3 ),
-        .n3_inv (n3_inv )
+        .__1__ (n1 ),
+        .__2__ (n2 ),
+        .__3__ (n3 ),
+        .__3b__ (n3_inv )
     );
 
     always @(posedge clk) begin

frontends/read_aiger_latch/testbench.v

@@ -21,8 +21,8 @@ module testbench;
 
     top uut (
         .clk (en ),
-        //.n1 (dinA ),
-        .n1_inv (doutB )
+        //.__1__ (dinA ),
+        .__1b__ (doutB )
     );
 
     always @(posedge en) begin

regression/Makefile

@@ -30,8 +30,9 @@ $(eval $(call template,issue_00041,issue_00041))
 $(eval $(call template,issue_00059,issue_00059))
 
 #issue_00065
-# Takes too long
-#$(eval $(call template,issue_00065,issue_00065))
+ifeq ($(ENABLE_HEAVY_TESTS),1)
+$(eval $(call template,issue_00065,issue_00065))
+endif
 
 #issue_00067
 $(eval $(call template,issue_00067,issue_00067))
@@ -299,8 +300,9 @@ $(eval $(call template,issue_00763,issue_00763))
 $(eval $(call template,issue_00767,issue_00767))
 
 #issue_00774
-# Takes too long
-#$(eval $(call template,issue_00774,issue_00774))
+ifeq ($(ENABLE_HEAVY_TESTS),1)
+$(eval $(call template,issue_00774,issue_00774))
+endif
 
 #issue_00781
 $(eval $(call template,issue_00781,issue_00781))