fuzzers/014-clb-ffsrcemux/top.py - prjxray - Git at Google

 #!/usr/bin/env python3
 # -*- coding: utf-8 -*-
 #
 # Copyright (C) 2017-2020  The Project X-Ray Authors.
 #
 # Use of this source code is governed by a ISC-style
 # license that can be found in the LICENSE file or at
 # https://opensource.org/licenses/ISC
 #
 # SPDX-License-Identifier: ISC
 import random
 random.seed(0)
 import os
 import re
 from prjxray import util
 from prjxray import verilog

 # INCREMENT is the amount of additional CLBN to be instantiated in the design.
 # This makes the fuzzer compilation more robust against failures.
 INCREMENT = os.getenv('CLBN', 0)
 CLBN = 600 + int(INCREMENT)
 print('//Requested CLBs: %s' % str(CLBN))


 def gen_slices():
     for _tile_name, site_name, _site_type in util.get_roi().gen_sites(
         ['SLICEL', 'SLICEM']):
         yield site_name


 DIN_N = CLBN * 4
 DOUT_N = CLBN * 1
 ffprims = ('FDRE', )
 ff_bels = (
     'AFF',
     'A5FF',
     'BFF',
     'B5FF',
     'CFF',
     'C5FF',
     'DFF',
     'D5FF',
 )

 verilog.top_harness(DIN_N, DOUT_N)

 f = open('params.csv', 'w')
 f.write('name,loc,ce,r\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):
     ffprim = random.choice(ffprims)
     force_ce = random.randint(0, 1)
     force_r = random.randint(0, 1)
     # clb_FD clb_FD (.clk(clk), .din(din[  0 +: 4]), .dout(dout[  0]));
     # clb_FD_1 clb_FD_1 (.clk(clk), .din(din[  4 +: 4]), .dout(dout[  1]));
     loc = next(slices)
     #bel = random.choice(ff_bels)
     bel = "AFF"
     name = 'clb_%s' % ffprim
     print('    %s' % name)
     print(
         '            #(.LOC("%s"), .BEL("%s"), .FORCE_CE1(%d), .nFORCE_R0(%d))'
         % (loc, bel, force_ce, force_r))
     print(
         '            clb_%d (.clk(clk), .din(din[  %d +: 4]), .dout(dout[  %d]));'
         % (i, 4 * i, 1 * i))
     f.write('%s,%s,%s,%s\n' % (name, loc, force_ce, force_r))
 f.close()
 print(
     '''endmodule

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

 ''')

 print(
     '''
 module clb_FDRE (input clk, input [3:0] din, output dout);
     parameter LOC="SLICE_X16Y114";
     parameter BEL="AFF";
     parameter FORCE_CE1=0;
     parameter nFORCE_R0=1;
     (* LOC=LOC, BEL=BEL, KEEP, DONT_TOUCH *)
     FDRE ff (
         .C(clk),
         .Q(dout),
         .CE(din[0] | FORCE_CE1),
         .R(din[1] & nFORCE_R0),
         .D(din[2])
     );
     endmodule
 ''')
	#!/usr/bin/env python3
	# -- coding: utf-8 --
	#
	# Copyright (C) 2017-2020 The Project X-Ray Authors.
	#
	# Use of this source code is governed by a ISC-style
	# license that can be found in the LICENSE file or at
	# https://opensource.org/licenses/ISC
	#
	# SPDX-License-Identifier: ISC
	import random
	random.seed(0)
	import os
	import re
	from prjxray import util
	from prjxray import verilog

	# INCREMENT is the amount of additional CLBN to be instantiated in the design.
	# This makes the fuzzer compilation more robust against failures.
	INCREMENT = os.getenv('CLBN', 0)
	CLBN = 600 + int(INCREMENT)
	print('//Requested CLBs: %s' % str(CLBN))


	def gen_slices():
	for _tile_name, site_name, _site_type in util.get_roi().gen_sites(
	['SLICEL', 'SLICEM']):
	yield site_name


	DIN_N = CLBN * 4
	DOUT_N = CLBN * 1
	ffprims = ('FDRE', )
	ff_bels = (
	'AFF',
	'A5FF',
	'BFF',
	'B5FF',
	'CFF',
	'C5FF',
	'DFF',
	'D5FF',
	)

	verilog.top_harness(DIN_N, DOUT_N)

	f = open('params.csv', 'w')
	f.write('name,loc,ce,r\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):
	ffprim = random.choice(ffprims)
	force_ce = random.randint(0, 1)
	force_r = random.randint(0, 1)
	# clb_FD clb_FD (.clk(clk), .din(din[ 0 +: 4]), .dout(dout[ 0]));
	# clb_FD_1 clb_FD_1 (.clk(clk), .din(din[ 4 +: 4]), .dout(dout[ 1]));
	loc = next(slices)
	#bel = random.choice(ff_bels)
	bel = "AFF"
	name = 'clb_%s' % ffprim
	print(' %s' % name)
	print(
	' #(.LOC("%s"), .BEL("%s"), .FORCE_CE1(%d), .nFORCE_R0(%d))'
	% (loc, bel, force_ce, force_r))
	print(
	' clb_%d (.clk(clk), .din(din[ %d +: 4]), .dout(dout[ %d]));'
	% (i, 4 * i, 1 * i))
	f.write('%s,%s,%s,%s\n' % (name, loc, force_ce, force_r))
	f.close()
	print(
	'''endmodule

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

	''')

	print(
	'''
	module clb_FDRE (input clk, input [3:0] din, output dout);
	parameter LOC="SLICE_X16Y114";
	parameter BEL="AFF";
	parameter FORCE_CE1=0;
	parameter nFORCE_R0=1;
	(* LOC=LOC, BEL=BEL, KEEP, DONT_TOUCH *)
	FDRE ff (
	.C(clk),
	.Q(dout),
	.CE(din[0] \| FORCE_CE1),
	.R(din[1] & nFORCE_R0),
	.D(din[2])
	);
	endmodule
	''')