fuzzers/012-clbn5ffmux/top.py - prjxray - Git at Google

 import random
 random.seed(0)
 import os
 import re


 def slice_xy():
     '''Return (X1, X2), (Y1, Y2) from XRAY_ROI, exclusive end (for xrange)'''
     # SLICE_X12Y100:SLICE_X27Y149
     # Note XRAY_ROI_GRID_* is something else
     m = re.match(
         r'SLICE_X([0-9]*)Y([0-9]*):SLICE_X([0-9]*)Y([0-9]*)',
         os.getenv('XRAY_ROI'))
     ms = [int(m.group(i + 1)) for i in range(4)]
     return ((ms[0], ms[2] + 1), (ms[1], ms[3] + 1))


 CLBN = 40
 SLICEX, SLICEY = slice_xy()
 # 800
 SLICEN = (SLICEY[1] - SLICEY[0]) * (SLICEX[1] - SLICEX[0])
 print('//SLICEX: %s' % str(SLICEX))
 print('//SLICEY: %s' % str(SLICEY))
 print('//SLICEN: %s' % str(SLICEN))
 print('//Requested CLBs: %s' % str(CLBN))


 def gen_slices():
     for slicey in range(*SLICEY):
         for slicex in range(*SLICEX):
             yield "SLICE_X%dY%d" % (slicex, slicey)


 DIN_N = CLBN * 8
 DOUT_N = CLBN * 8

 print(
     '''
 module top(input clk, stb, di, output do);
     localparam integer DIN_N = %d;
     localparam integer DOUT_N = %d;

     reg [DIN_N-1:0] din;
     wire [DOUT_N-1:0] dout;

     reg [DIN_N-1:0] din_shr;
     reg [DOUT_N-1:0] dout_shr;

     always @(posedge clk) begin
         din_shr <= {din_shr, di};
         dout_shr <= {dout_shr, din_shr[DIN_N-1]};
         if (stb) begin
             din <= din_shr;
             dout_shr <= dout;
         end
     end

     assign do = dout_shr[DOUT_N-1];

     roi roi (
         .clk(clk),
         .din(din),
         .dout(dout)
     );
 endmodule
 ''' % (DIN_N, DOUT_N))

 f = open('params.csv', 'w')
 f.write('module,loc,n,def_a\n')
 slices = gen_slices()
 print(
     'module roi(input clk, input [%d:0] din, output [%d:0] dout);' %
     (DIN_N - 1, DOUT_N - 1))
 for i in range(CLBN):
     bel = ''

     module = 'clb_N5FFMUX'
     n = random.randint(0, 3)
     def_a = random.randint(0, 1)
     loc = next(slices)

     print('    %s' % module)
     print('            #(.LOC("%s"), .N(%d), .DEF_A(%d))' % (loc, n, def_a))
     print(
         '            clb_%d (.clk(clk), .din(din[  %d +: 8]), .dout(dout[  %d +: 8]));'
         % (i, 8 * i, 8 * i))

     f.write('%s,%s,%s,%s\n' % (module, loc, n, def_a))
 f.close()
 print(
     '''endmodule

 // ---------------------------------------------------------------------

 ''')

 print(
     '''
 module clb_N5FFMUX (input clk, input [7:0] din, output [7:0] dout);
     parameter LOC="SLICE_X22Y100";
     parameter N=-1;
     parameter DEF_A=1;
     wire lutdo, lutco, lutbo, lutao;
     wire lut7bo, lut7ao;
     wire lut8o;

     reg [3:0] ffds;
     wire lutdo5, lutco5, lutbo5, lutao5;
     //wire lutno5 [3:0] = {lutao5, lutbo5, lutco5, lutdo5};
     wire lutno5 [3:0] = {lutdo5, lutco5, lutbo5, lutao5};
     always @(*) begin
         if (DEF_A) begin
             //Default poliarty A
             ffds[3] = lutdo5;
             ffds[2] = lutco5;
             ffds[1] = lutbo5;
             ffds[0] = lutao5;
             ffds[N] = din[6];
         end else begin
             //Default polarity B
             ffds[3] = din[6];
             ffds[2] = din[6];
             ffds[1] = din[6];
             ffds[0] = din[6];
             ffds[N] = lutno5[N];
         end
     end

     (* LOC=LOC, BEL="F8MUX", KEEP, DONT_TOUCH *)
     MUXF8 mux8 (.O(), .I0(lut7bo), .I1(lut7ao), .S(din[6]));
     (* LOC=LOC, BEL="F7BMUX", KEEP, DONT_TOUCH *)
     MUXF7 mux7b (.O(lut7bo), .I0(lutdo), .I1(lutco), .S(din[6]));
     (* LOC=LOC, BEL="F7AMUX", KEEP, DONT_TOUCH *)
     MUXF7 mux7a (.O(lut7ao), .I0(lutbo), .I1(lutao), .S(din[6]));

 	(* LOC=LOC, BEL="D6LUT", KEEP, DONT_TOUCH *)
 	LUT6_2 #(
 		.INIT(64'h8000_DEAD_0000_0001)
 	) lutd (
 		.I0(din[0]),
 		.I1(din[1]),
 		.I2(din[2]),
 		.I3(din[3]),
 		.I4(din[4]),
 		.I5(din[5]),
 		.O5(lutdo5),
 		.O6(lutdo));
 	(* LOC=LOC, BEL="D5FF" *)
 	FDPE ffd (
 		.C(clk),
 		.Q(dout[1]),
 		.CE(din[0]),
 		.PRE(din[1]),
 		.D(ffds[3]));

 	(* LOC=LOC, BEL="C6LUT", KEEP, DONT_TOUCH *)
 	LUT6_2 #(
 		.INIT(64'h8000_BEEF_0000_0001)
 	) lutc (
 		.I0(din[0]),
 		.I1(din[1]),
 		.I2(din[2]),
 		.I3(din[3]),
 		.I4(din[4]),
 		.I5(din[5]),
 		.O5(lutco5),
 		.O6(lutco));
 	(* LOC=LOC, BEL="C5FF" *)
 	FDPE ffc (
 		.C(clk),
 		.Q(dout[2]),
 		.CE(din[0]),
 		.PRE(din[1]),
 		.D(ffds[2]));

 	(* LOC=LOC, BEL="B6LUT", KEEP, DONT_TOUCH *)
 	LUT6_2 #(
 		.INIT(64'h8000_CAFE_0000_0001)
 	) lutb (
 		.I0(din[0]),
 		.I1(din[1]),
 		.I2(din[2]),
 		.I3(din[3]),
 		.I4(din[4]),
 		.I5(din[5]),
 		.O5(lutbo5),
 		.O6(lutbo));
 	(* LOC=LOC, BEL="B5FF" *)
 	FDPE ffb (
 		.C(clk),
 		.Q(dout[3]),
 		.CE(din[0]),
 		.PRE(din[1]),
 		.D(ffds[1]));

 	(* LOC=LOC, BEL="A6LUT", KEEP, DONT_TOUCH *)
 	LUT6_2 #(
 		.INIT(64'h8000_1CE0_0000_0001)
 	) luta (
 		.I0(din[0]),
 		.I1(din[1]),
 		.I2(din[2]),
 		.I3(din[3]),
 		.I4(din[4]),
 		.I5(din[5]),
 		.O5(lutao5),
 		.O6(lutao));
 	(* LOC=LOC, BEL="A5FF" *)
 	FDPE ffa (
 		.C(clk),
 		.Q(dout[4]),
 		.CE(din[0]),
 		.PRE(din[1]),
 		//D can only come from O5 or AX
 		//AX is used by MUXF7:S
 		.D(ffds[0]));
 endmodule
 ''')
	import random
	random.seed(0)
	import os
	import re


	def slice_xy():
	'''Return (X1, X2), (Y1, Y2) from XRAY_ROI, exclusive end (for xrange)'''
	# SLICE_X12Y100:SLICE_X27Y149
	# Note XRAY_ROI_GRID_* is something else
	m = re.match(
	r'SLICE_X([0-9])Y([0-9]):SLICE_X([0-9])Y([0-9])',
	os.getenv('XRAY_ROI'))
	ms = [int(m.group(i + 1)) for i in range(4)]
	return ((ms[0], ms[2] + 1), (ms[1], ms[3] + 1))


	CLBN = 40
	SLICEX, SLICEY = slice_xy()
	# 800
	SLICEN = (SLICEY[1] - SLICEY[0]) * (SLICEX[1] - SLICEX[0])
	print('//SLICEX: %s' % str(SLICEX))
	print('//SLICEY: %s' % str(SLICEY))
	print('//SLICEN: %s' % str(SLICEN))
	print('//Requested CLBs: %s' % str(CLBN))


	def gen_slices():
	for slicey in range(*SLICEY):
	for slicex in range(*SLICEX):
	yield "SLICE_X%dY%d" % (slicex, slicey)


	DIN_N = CLBN * 8
	DOUT_N = CLBN * 8

	print(
	'''
	module top(input clk, stb, di, output do);
	localparam integer DIN_N = %d;
	localparam integer DOUT_N = %d;

	reg [DIN_N-1:0] din;
	wire [DOUT_N-1:0] dout;

	reg [DIN_N-1:0] din_shr;
	reg [DOUT_N-1:0] dout_shr;

	always @(posedge clk) begin
	din_shr <= {din_shr, di};
	dout_shr <= {dout_shr, din_shr[DIN_N-1]};
	if (stb) begin
	din <= din_shr;
	dout_shr <= dout;
	end
	end

	assign do = dout_shr[DOUT_N-1];

	roi roi (
	.clk(clk),
	.din(din),
	.dout(dout)
	);
	endmodule
	''' % (DIN_N, DOUT_N))

	f = open('params.csv', 'w')
	f.write('module,loc,n,def_a\n')
	slices = gen_slices()
	print(
	'module roi(input clk, input [%d:0] din, output [%d:0] dout);' %
	(DIN_N - 1, DOUT_N - 1))
	for i in range(CLBN):
	bel = ''

	module = 'clb_N5FFMUX'
	n = random.randint(0, 3)
	def_a = random.randint(0, 1)
	loc = next(slices)

	print(' %s' % module)
	print(' #(.LOC("%s"), .N(%d), .DEF_A(%d))' % (loc, n, def_a))
	print(
	' clb_%d (.clk(clk), .din(din[ %d +: 8]), .dout(dout[ %d +: 8]));'
	% (i, 8 * i, 8 * i))

	f.write('%s,%s,%s,%s\n' % (module, loc, n, def_a))
	f.close()
	print(
	'''endmodule

	// ---------------------------------------------------------------------

	''')

	print(
	'''
	module clb_N5FFMUX (input clk, input [7:0] din, output [7:0] dout);
	parameter LOC="SLICE_X22Y100";
	parameter N=-1;
	parameter DEF_A=1;
	wire lutdo, lutco, lutbo, lutao;
	wire lut7bo, lut7ao;
	wire lut8o;

	reg [3:0] ffds;
	wire lutdo5, lutco5, lutbo5, lutao5;
	//wire lutno5 [3:0] = {lutao5, lutbo5, lutco5, lutdo5};
	wire lutno5 [3:0] = {lutdo5, lutco5, lutbo5, lutao5};
	always @(*) begin
	if (DEF_A) begin
	//Default poliarty A
	ffds[3] = lutdo5;
	ffds[2] = lutco5;
	ffds[1] = lutbo5;
	ffds[0] = lutao5;
	ffds[N] = din[6];
	end else begin
	//Default polarity B
	ffds[3] = din[6];
	ffds[2] = din[6];
	ffds[1] = din[6];
	ffds[0] = din[6];
	ffds[N] = lutno5[N];
	end
	end

	(* LOC=LOC, BEL="F8MUX", KEEP, DONT_TOUCH *)
	MUXF8 mux8 (.O(), .I0(lut7bo), .I1(lut7ao), .S(din[6]));
	(* LOC=LOC, BEL="F7BMUX", KEEP, DONT_TOUCH *)
	MUXF7 mux7b (.O(lut7bo), .I0(lutdo), .I1(lutco), .S(din[6]));
	(* LOC=LOC, BEL="F7AMUX", KEEP, DONT_TOUCH *)
	MUXF7 mux7a (.O(lut7ao), .I0(lutbo), .I1(lutao), .S(din[6]));

	(* LOC=LOC, BEL="D6LUT", KEEP, DONT_TOUCH *)
	LUT6_2 #(
	.INIT(64'h8000_DEAD_0000_0001)
	) lutd (
	.I0(din[0]),
	.I1(din[1]),
	.I2(din[2]),
	.I3(din[3]),
	.I4(din[4]),
	.I5(din[5]),
	.O5(lutdo5),
	.O6(lutdo));
	(* LOC=LOC, BEL="D5FF" *)
	FDPE ffd (
	.C(clk),
	.Q(dout[1]),
	.CE(din[0]),
	.PRE(din[1]),
	.D(ffds[3]));

	(* LOC=LOC, BEL="C6LUT", KEEP, DONT_TOUCH *)
	LUT6_2 #(
	.INIT(64'h8000_BEEF_0000_0001)
	) lutc (
	.I0(din[0]),
	.I1(din[1]),
	.I2(din[2]),
	.I3(din[3]),
	.I4(din[4]),
	.I5(din[5]),
	.O5(lutco5),
	.O6(lutco));
	(* LOC=LOC, BEL="C5FF" *)
	FDPE ffc (
	.C(clk),
	.Q(dout[2]),
	.CE(din[0]),
	.PRE(din[1]),
	.D(ffds[2]));

	(* LOC=LOC, BEL="B6LUT", KEEP, DONT_TOUCH *)
	LUT6_2 #(
	.INIT(64'h8000_CAFE_0000_0001)
	) lutb (
	.I0(din[0]),
	.I1(din[1]),
	.I2(din[2]),
	.I3(din[3]),
	.I4(din[4]),
	.I5(din[5]),
	.O5(lutbo5),
	.O6(lutbo));
	(* LOC=LOC, BEL="B5FF" *)
	FDPE ffb (
	.C(clk),
	.Q(dout[3]),
	.CE(din[0]),
	.PRE(din[1]),
	.D(ffds[1]));

	(* LOC=LOC, BEL="A6LUT", KEEP, DONT_TOUCH *)
	LUT6_2 #(
	.INIT(64'h8000_1CE0_0000_0001)
	) luta (
	.I0(din[0]),
	.I1(din[1]),
	.I2(din[2]),
	.I3(din[3]),
	.I4(din[4]),
	.I5(din[5]),
	.O5(lutao5),
	.O6(lutao));
	(* LOC=LOC, BEL="A5FF" *)
	FDPE ffa (
	.C(clk),
	.Q(dout[4]),
	.CE(din[0]),
	.PRE(din[1]),
	//D can only come from O5 or AX
	//AX is used by MUXF7:S
	.D(ffds[0]));
	endmodule
	''')