mirror of https://github.com/YosysHQ/yosys.git
1558 lines
49 KiB
Python
1558 lines
49 KiB
Python
# TODO:
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# - priority logic
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# - swizzles for weird width progressions
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class Test:
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def __init__(self, name, src, libs, defs, cells):
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self.name = name
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self.src = src
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self.libs = libs
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self.defs = defs
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self.cells = cells
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TESTS = []
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### basic sanity tests
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# Asynchronous-read RAM
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ASYNC = """
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module top(clk, ra, wa, rd, wd, we);
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localparam ABITS = {abits};
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localparam DBITS = {dbits};
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input wire clk;
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input wire we;
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input wire [ABITS-1:0] ra, wa;
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input wire [DBITS-1:0] wd;
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output wire [DBITS-1:0] rd;
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reg [DBITS-1:0] mem [0:2**ABITS-1];
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always @(posedge clk)
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if (we)
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mem[wa] <= wd;
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assign rd = mem[ra];
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endmodule
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"""
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ASYNC_SMALL = ASYNC.format(abits=6, dbits=6)
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ASYNC_BIG = ASYNC.format(abits=11, dbits=10)
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TESTS += [
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Test("async_big", ASYNC_BIG, ["lut", "block_tdp"], [], {"RAM_LUT": 384}),
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Test("async_big_block", ASYNC_BIG, ["block_tdp"], [], {"RAM_BLOCK_TDP": 0}),
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Test("async_small", ASYNC_SMALL, ["lut", "block_tdp"], [], {"RAM_LUT": 8}),
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Test("async_small_block", ASYNC_SMALL, ["block_tdp"], [], {"RAM_BLOCK_TDP": 0}),
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]
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# Synchronous SDP read first
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SYNC = """
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module top(clk, ra, wa, rd, wd, we);
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localparam ABITS = {abits};
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localparam DBITS = {dbits};
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input wire clk;
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input wire we;
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input wire [ABITS-1:0] ra, wa;
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input wire [DBITS-1:0] wd;
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output reg [DBITS-1:0] rd;
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{attr}
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reg [DBITS-1:0] mem [0:2**ABITS-1];
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always @(posedge clk)
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if (we)
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mem[wa] <= wd;
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always @(posedge clk)
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rd <= mem[ra];
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endmodule
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"""
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SYNC_SMALL = SYNC.format(abits=6, dbits=6, attr="")
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SYNC_SMALL_BLOCK = SYNC.format(abits=6, dbits=6, attr='(* ram_style="block" *)')
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SYNC_BIG = SYNC.format(abits=11, dbits=10, attr="")
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SYNC_MID = SYNC.format(abits=6, dbits=16, attr="")
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TESTS += [
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Test("sync_big", SYNC_BIG, ["lut", "block_tdp"], [], {"RAM_BLOCK_TDP": 20}),
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Test("sync_big_sdp", SYNC_BIG, ["lut", "block_sdp"], [], {"RAM_BLOCK_SDP": 20}),
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Test("sync_big_lut", SYNC_BIG, ["lut"], [], {"RAM_LUT": 384}),
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Test("sync_small", SYNC_SMALL, ["lut", "block_tdp"], [], {"RAM_LUT": 8}),
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Test("sync_small_block", SYNC_SMALL, ["block_tdp"], [], {"RAM_BLOCK_TDP": 1}),
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Test("sync_small_block_attr", SYNC_SMALL_BLOCK, ["lut", "block_tdp"], [], {"RAM_BLOCK_TDP": 1}),
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]
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### initialization values testing
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LUT_INIT = """
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module top(clk, ra, wa, rd, wd, we);
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localparam ABITS = {abits};
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localparam DBITS = {dbits};
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input wire clk;
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input wire we;
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input wire [ABITS-1:0] ra, wa;
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input wire [DBITS-1:0] wd;
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output wire [DBITS-1:0] rd;
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reg [DBITS-1:0] mem [0:2**ABITS-1];
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integer i;
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initial
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for (i = 0; i < 2**ABITS-1; i = i + 1)
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mem[i] = {ival};
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always @(posedge clk)
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if (we)
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mem[wa] <= wd;
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assign rd = mem[ra];
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endmodule
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"""
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INIT_LUT_ZEROS = LUT_INIT.format(abits=4, dbits=4, ival=0);
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INIT_LUT_VAL = LUT_INIT.format(abits=4, dbits=4, ival=5);
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INIT_LUT_VAL2 = LUT_INIT.format(abits=6, dbits=6, ival="6'h12");
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INIT_LUT_X = LUT_INIT.format(abits=4, dbits=4, ival="4'hx")
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TESTS += [
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Test("init_lut_zeros_zero", INIT_LUT_ZEROS, ["lut"], ["INIT_ZERO"], {"RAM_LUT":1}),
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Test("init_lut_zeros_any", INIT_LUT_ZEROS, ["lut"], ["INIT_ANY"], {"RAM_LUT":1}),
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Test("init_lut_val_zero", INIT_LUT_VAL, ["lut"], ["INIT_ZERO"], {"RAM_LUT":0}), #CHECK: no emulation?
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Test("init_lut_val_any", INIT_LUT_VAL, ["lut"], ["INIT_ANY"], {"RAM_LUT":1}),
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Test("init_lut_val_no_undef", INIT_LUT_VAL, ["lut"], ["INIT_NO_UNDEF"], {"RAM_LUT":1}),
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Test("init_lut_val2_any", INIT_LUT_VAL2, ["lut"], ["INIT_ANY"], {"RAM_LUT":8}),
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Test("init_lut_val2_no_undef", INIT_LUT_VAL2, ["lut"], ["INIT_NO_UNDEF"], {"RAM_LUT":8}),
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Test("init_lut_x_none", INIT_LUT_X, ["lut"], ["INIT_NONE"], {"RAM_LUT":1}),
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Test("init_lut_x_zero", INIT_LUT_X, ["lut"], ["INIT_ZERO"], {"RAM_LUT":1}),
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Test("init_lut_x_any", INIT_LUT_X, ["lut"], ["INIT_ANY"], {"RAM_LUT":1}),
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Test("init_lut_x_no_undef", INIT_LUT_X, ["lut"], ["INIT_NO_UNDEF"], {"RAM_LUT":1}),
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]
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### width testing 9-bit-per-byte
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RAM_9b1B = """
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module top(clk, ra, wa, rd, wd, we);
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localparam ABITS = {abits};
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localparam DBITS = {dbits};
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input wire clk;
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input wire we;
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input wire [ABITS-1:0] ra, wa;
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input wire [DBITS-1:0] wd;
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output reg [DBITS-1:0] rd;
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reg [DBITS-1:0] mem [0:2**ABITS-1];
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always @(posedge clk)
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if (we)
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mem[wa] <= wd;
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always @(posedge clk)
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rd <= mem[ra];
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endmodule
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"""
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RAM_18b2B = RAM_9b1B.format(abits=3, dbits=18);
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RAM_9b1B = RAM_9b1B.format(abits=4, dbits=9);
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RAM_4b1B = RAM_9b1B.format(abits=5, dbits=4);
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RAM_2b1B = RAM_9b1B.format(abits=6, dbits=2);
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RAM_1b1B = RAM_9b1B.format(abits=7, dbits=1);
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TESTS += [
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Test("ram_18b2B", RAM_18b2B, ["9b1B"], [], {"RAM_9b1B":1}),
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Test("ram_9b1B", RAM_9b1B, ["9b1B"], [], {"RAM_9b1B":1}),
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Test("ram_4b1B", RAM_4b1B, ["9b1B"], [], {"RAM_9b1B":1}),
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Test("ram_2b1B", RAM_2b1B, ["9b1B"], [], {"RAM_9b1B":1}),
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Test("ram_1b1B", RAM_1b1B, ["9b1B"], [], {"RAM_9b1B":1}),
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]
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### initializing 9-bits-per-byte
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RAM_9b1B_init = """
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module top(clk, ra, wa, rd, wd, we);
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localparam ABITS = {abits};
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localparam DBITS = {dbits};
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input wire clk;
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input wire we;
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input wire [ABITS-1:0] ra, wa;
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input wire [DBITS-1:0] wd;
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output reg [DBITS-1:0] rd;
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reg [DBITS-1:0] mem [0:2**ABITS-1];
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integer i;
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initial
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for (i = 0; i < 2**ABITS-1; i = i + 1)
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mem[i] = {ival};
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always @(posedge clk)
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if (we)
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mem[wa] <= wd;
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always @(posedge clk)
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rd <= mem[ra];
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endmodule
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"""
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INIT_9b1B_ZEROS = RAM_9b1B_init.format(abits=4, dbits=9, ival=0);
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INIT_9b1B_VAL = RAM_9b1B_init.format(abits=4, dbits=9, ival=275);
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INIT_13b2B_VAL = RAM_9b1B_init.format(abits=3, dbits=13, ival="13'h01f3")
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INIT_18b2B_VAL = RAM_9b1B_init.format(abits=4, dbits=18, ival="18'h1f39a");
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INIT_4b1B_X = RAM_9b1B_init.format(abits=5, dbits=4, ival="4'hx")
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TESTS += [
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Test("init_9b1B_zeros_zero", INIT_9b1B_ZEROS, ["9b1B"], ["INIT_ZERO"], {"RAM_9b1B":1}),
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Test("init_9b1B_zeros_any", INIT_9b1B_ZEROS, ["9b1B"], ["INIT_ANY"], {"RAM_9b1B":1}),
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Test("init_9b1B_val_zero", INIT_9b1B_VAL, ["9b1B"], ["INIT_ZERO"], {"RAM_9b1B":0}), #CHECK: no emulation?
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Test("init_9b1B_val_any", INIT_9b1B_VAL, ["9b1B"], ["INIT_ANY"], {"RAM_9b1B":1}),
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Test("init_9b1B_val_no_undef", INIT_9b1B_VAL, ["9b1B"], ["INIT_NO_UNDEF"], {"RAM_9b1B":1}),
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Test("init_13b2B_val_any", INIT_13b2B_VAL, ["9b1B"], ["INIT_ANY"], {"RAM_9b1B":1}),
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Test("init_18b2B_val_any", INIT_18b2B_VAL, ["9b1B"], ["INIT_ANY"], {"RAM_9b1B":2}),
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Test("init_18b2B_val_no_undef", INIT_18b2B_VAL, ["9b1B"], ["INIT_NO_UNDEF"], {"RAM_9b1B":2}),
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Test("init_4b1B_x_none", INIT_4b1B_X, ["9b1B"], ["INIT_NONE"], {"RAM_9b1B":1}),
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Test("init_4b1B_x_zero", INIT_4b1B_X, ["9b1B"], ["INIT_ZERO"], {"RAM_9b1B":1}),
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Test("init_4b1B_x_any", INIT_4b1B_X, ["9b1B"], ["INIT_ANY"], {"RAM_9b1B":1}),
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Test("init_4b1B_x_no_undef", INIT_4b1B_X, ["9b1B"], ["INIT_NO_UNDEF"], {"RAM_9b1B":1}),
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]
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### Clock polarity combinations
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# I'm not entirely convinced auto-test is correctly testing clock edging
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# but they do at least all gen/synth
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SYNCCLOCK = """
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module top(clk, ra, wa, rd, wd, we);
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localparam ABITS = {abits};
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localparam DBITS = 8;
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input wire clk;
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input wire we;
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input wire [ABITS-1:0] ra, wa;
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input wire [DBITS-1:0] wd;
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output reg [DBITS-1:0] rd;
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reg [DBITS-1:0] mem [0:2**ABITS-1];
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always @(posedge clk)
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if (we)
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mem[wa] <= wd;
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always @(posedge clk)
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rd <= mem[ra];
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endmodule
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"""
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for (abits, cnt, wclk, rclk, shared) in [
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(4, 1, "ANY","ANY", False),
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(4, 1, "ANY","NEG", False),
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(4, 1, "ANY","POS", False),
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(4, 1, "NEG","ANY", False),
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(4, 1, "NEG","POS", False),
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(4, 1, "NEG","NEG", False),
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(4, 1, "POS","ANY", False),
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(4, 1, "POS","NEG", False),
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(4, 1, "POS","POS", False),
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(4, 1, "ANY","ANY", True),
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(4, 0, "NEG","POS", True), # FF mapping
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(4, 1, "NEG","NEG", True),
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(4, 0, "POS","NEG", True), # FF mapping
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(4, 1, "POS","POS", True),
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# cannot combine "ANY" with "POS|NEG" when using shared clock
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]:
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name = f"clock_a{abits}_w{wclk}r{rclk}s{shared}"
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defs = ["WCLK_" + wclk, "RCLK_" + rclk]
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if (shared):
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defs.append("SHARED_CLK")
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TESTS.append(Test(
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name, SYNCCLOCK.format(abits=abits),
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["clock_sdp"], defs, {"RAM_CLOCK_SDP": cnt}
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))
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### mixed width testing
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# Wide write port
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MIXED_WRITE = """
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module top(clk, ra, wa, rd, wd, we);
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localparam WABITS = {wabits};
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localparam WDBITS = {wdbits};
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localparam RABITS = {rabits};
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localparam RDBITS = {rdbits};
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input wire clk;
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input wire we;
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input wire [WABITS-1:0] wa;
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input wire [WDBITS-1:0] wd;
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input wire [RABITS-1:0] ra;
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output reg [RDBITS-1:0] rd;
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localparam DEPTH = (2**WABITS);
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localparam OFFSET = RABITS-WABITS;
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(* syn_ramstyle = "block_ram" *)
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reg [WDBITS-1:0] mem [0:DEPTH-1];
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always @(posedge clk)
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if (we)
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mem[wa] <= wd;
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if (OFFSET > 0) begin
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reg [WDBITS-1:0] mem_read;
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reg [OFFSET-1:0] subaddr_r;
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always @(posedge clk) begin
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mem_read <= mem[ra[RABITS-1:OFFSET]];
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subaddr_r <= ra[OFFSET-1:0];
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end
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always @(mem_read, subaddr_r)
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rd <= mem_read[subaddr_r*RDBITS+:RDBITS];
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end
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else
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begin
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always @(posedge clk)
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case (OFFSET)
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0: rd <= mem[ra];
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-1: rd <= {{ mem[ra], mem[ra+1] }};
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endcase
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end
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endmodule
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"""
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UNMIXED = MIXED_WRITE.format(wabits=4, wdbits=9, rabits=4, rdbits=9)
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MIXED_9_18 = MIXED_WRITE.format(wabits=5, wdbits=9, rabits=4, rdbits=18)
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MIXED_18_9 = MIXED_WRITE.format(wabits=3, wdbits=18, rabits=4, rdbits=9)
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MIXED_36_9 = MIXED_WRITE.format(wabits=3, wdbits=36, rabits=5, rdbits=9)
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MIXED_4_2 = MIXED_WRITE.format(wabits=5, wdbits=4, rabits=6, rdbits=2);
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TESTS += [
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Test("unmixed", UNMIXED, ["9b1B"], [], {"RAM_9b1B":1}),
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Test("mixed_9_18", MIXED_9_18, ["9b1B"], [], {"RAM_9b1B":4}), #CHECK: only using half the memory
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Test("mixed_18_9", MIXED_18_9, ["9b1B"], [], {"RAM_9b1B":1}),
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Test("mixed_36_9", MIXED_36_9, ["9b1B"], [], {"RAM_9b1B":2}),
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Test("mixed_4_2", MIXED_4_2, ["9b1B"], [], {"RAM_9b1B":1}),
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]
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### basic TDP test
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TDP = """
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module top(clka, clkb, addra, addrb, rda, rdb, wda, wdb, wea, web);
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localparam ABITS = 6;
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localparam DBITS = 6;
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input wire clka, clkb;
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input wire wea, web;
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input wire [ABITS-1:0] addra, addrb;
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input wire [DBITS-1:0] wda, wdb;
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output reg [DBITS-1:0] rda, rdb;
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reg [DBITS-1:0] mem [0:2**ABITS-1];
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always @(posedge clka)
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if (wea)
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mem[addra] <= wda;
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else
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rda <= mem[addra];
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always @(posedge clkb)
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if (web)
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mem[addrb] <= wdb;
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else
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rdb <= mem[addrb];
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endmodule
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"""
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TESTS += [
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Test("tdp", TDP, ["block_tdp", "block_sdp"], [], {"RAM_BLOCK_TDP": 1}),
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]
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# shared clock
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# Synchronous SDP with clock domain crossing
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SYNC_2CLK = """
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module top(rclk, wclk, ra, wa, rd, wd, we);
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localparam ABITS = 6;
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localparam DBITS = 16;
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input wire rclk, wclk;
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input wire we;
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input wire [ABITS-1:0] ra, wa;
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input wire [DBITS-1:0] wd;
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output reg [DBITS-1:0] rd;
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reg [DBITS-1:0] mem [0:2**ABITS-1];
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always @(posedge wclk)
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if (we)
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mem[wa] <= wd;
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always @(posedge rclk)
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rd <= mem[ra];
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endmodule
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"""
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TESTS += [
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Test("sync_2clk", SYNC_2CLK, ["block_sdp"], [], {"RAM_BLOCK_SDP": 1}),
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Test("sync_shared", SYNC_MID, ["block_sdp_1clk"], [], {"RAM_BLOCK_SDP_1CLK": 1}),
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Test("sync_2clk_shared", SYNC_2CLK, ["block_sdp_1clk"], [], {"RAM_BLOCK_SDP_1CLK": 0}),
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]
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# inter-port transparency
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# Synchronous SDP with write-first behaviour
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SYNC_TRANS = """
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module top(clk, ra, wa, rd, wd, we);
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localparam ABITS = 6;
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localparam DBITS = 16;
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input wire clk;
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input wire we;
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input wire [ABITS-1:0] ra, wa;
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input wire [DBITS-1:0] wd;
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output reg [DBITS-1:0] rd;
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reg [DBITS-1:0] mem [0:2**ABITS-1];
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always @(negedge clk)
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if (we)
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mem[wa] <= wd;
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always @(negedge clk) begin
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rd <= mem[ra];
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if (we && ra == wa)
|
|
rd <= wd;
|
|
end
|
|
|
|
endmodule
|
|
"""
|
|
|
|
TESTS += [
|
|
Test("sync_trans_old_old", SYNC_MID, ["block_sdp_1clk"], ["TRANS_OLD"], {"RAM_BLOCK_SDP_1CLK": (1, {"OPTION_TRANS": 0})}),
|
|
Test("sync_trans_old_new", SYNC_MID, ["block_sdp_1clk"], ["TRANS_NEW"], {"RAM_BLOCK_SDP_1CLK": 1}),
|
|
Test("sync_trans_old_none", SYNC_MID, ["block_sdp_1clk"], [], {"RAM_BLOCK_SDP_1CLK": 1}),
|
|
Test("sync_trans_new_old", SYNC_TRANS, ["block_sdp_1clk"], ["TRANS_OLD"], {"RAM_BLOCK_SDP_1CLK": 1}),
|
|
Test("sync_trans_new_new", SYNC_TRANS, ["block_sdp_1clk"], ["TRANS_NEW"], {"RAM_BLOCK_SDP_1CLK": (1, {"OPTION_TRANS": 1})}),
|
|
Test("sync_trans_new_none", SYNC_TRANS, ["block_sdp_1clk"], [], {"RAM_BLOCK_SDP_1CLK": 1}),
|
|
]
|
|
|
|
# rdwr checks
|
|
# Synchronous single-port RAM with mutually exclusive read/write
|
|
SP_NO_CHANGE = """
|
|
module top(clk, addr, rd, wd, we);
|
|
|
|
input wire clk;
|
|
input wire we;
|
|
input wire [3:0] addr;
|
|
input wire [15:0] wd;
|
|
output reg [15:0] rd;
|
|
|
|
reg [15:0] mem [0:15];
|
|
|
|
always @(negedge clk) begin
|
|
if (we)
|
|
mem[addr] <= wd;
|
|
else
|
|
rd <= mem[addr];
|
|
end
|
|
|
|
endmodule
|
|
"""
|
|
|
|
SP_NO_CHANGE_BE = """
|
|
module top(clk, addr, rd, wd, we);
|
|
|
|
input wire clk;
|
|
input wire [1:0] we;
|
|
input wire [3:0] addr;
|
|
input wire [15:0] wd;
|
|
output reg [15:0] rd;
|
|
|
|
reg [15:0] mem [0:15];
|
|
|
|
always @(negedge clk) begin
|
|
if (we) begin
|
|
if (we[0])
|
|
mem[addr][7:0] <= wd[7:0];
|
|
if (we[1])
|
|
mem[addr][15:8] <= wd[15:8];
|
|
end else
|
|
rd <= mem[addr];
|
|
end
|
|
|
|
endmodule
|
|
"""
|
|
|
|
# Synchronous single-port RAM with write-first behaviour
|
|
SP_NEW = """
|
|
module top(clk, addr, rd, wd, we);
|
|
|
|
input wire clk;
|
|
input wire we;
|
|
input wire [3:0] addr;
|
|
input wire [15:0] wd;
|
|
output reg [15:0] rd;
|
|
|
|
reg [15:0] mem [0:15];
|
|
|
|
always @(negedge clk) begin
|
|
if (we) begin
|
|
mem[addr] <= wd;
|
|
rd <= wd;
|
|
end else
|
|
rd <= mem[addr];
|
|
end
|
|
|
|
endmodule
|
|
"""
|
|
|
|
SP_NEW_BE = """
|
|
module top(clk, addr, rd, wd, we);
|
|
|
|
input wire clk;
|
|
input wire [1:0] we;
|
|
input wire [3:0] addr;
|
|
input wire [15:0] wd;
|
|
output reg [15:0] rd;
|
|
|
|
reg [15:0] mem [0:15];
|
|
|
|
always @(negedge clk) begin
|
|
rd <= mem[addr];
|
|
if (we[0]) begin
|
|
mem[addr][7:0] <= wd[7:0];
|
|
rd[7:0] <= wd[7:0];
|
|
end
|
|
if (we[1]) begin
|
|
mem[addr][15:8] <= wd[15:8];
|
|
rd[15:8] <= wd[15:8];
|
|
end
|
|
end
|
|
|
|
endmodule
|
|
"""
|
|
|
|
# Synchronous single-port RAM with read-first behaviour
|
|
SP_OLD = """
|
|
module top(clk, addr, rd, wd, we);
|
|
|
|
input wire clk;
|
|
input wire we;
|
|
input wire [3:0] addr;
|
|
input wire [15:0] wd;
|
|
output reg [15:0] rd;
|
|
|
|
reg [15:0] mem [0:15];
|
|
|
|
always @(negedge clk) begin
|
|
if (we)
|
|
mem[addr] <= wd;
|
|
rd <= mem[addr];
|
|
end
|
|
|
|
endmodule
|
|
"""
|
|
|
|
SP_OLD_BE = """
|
|
module top(clk, addr, rd, wd, we);
|
|
|
|
input wire clk;
|
|
input wire [1:0] we;
|
|
input wire [3:0] addr;
|
|
input wire [15:0] wd;
|
|
output reg [15:0] rd;
|
|
|
|
reg [15:0] mem [0:15];
|
|
|
|
always @(negedge clk) begin
|
|
if (we[0])
|
|
mem[addr][7:0] <= wd[7:0];
|
|
if (we[1])
|
|
mem[addr][15:8] <= wd[15:8];
|
|
rd <= mem[addr];
|
|
end
|
|
|
|
endmodule
|
|
"""
|
|
|
|
TESTS += [
|
|
Test("sp_nc_none", SP_NO_CHANGE, ["block_sp"], [], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_new_none", SP_NEW, ["block_sp"], [], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_old_none", SP_OLD, ["block_sp"], [], {"RAM_BLOCK_SP": 0}),
|
|
Test("sp_nc_nc", SP_NO_CHANGE, ["block_sp"], ["RDWR_NO_CHANGE"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_new_nc", SP_NEW, ["block_sp"], ["RDWR_NO_CHANGE"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_old_nc", SP_OLD, ["block_sp"], ["RDWR_NO_CHANGE"], {"RAM_BLOCK_SP": 0}),
|
|
Test("sp_nc_new", SP_NO_CHANGE, ["block_sp"], ["RDWR_NEW"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_new_new", SP_NEW, ["block_sp"], ["RDWR_NEW"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_old_new", SP_OLD, ["block_sp"], ["RDWR_NEW"], {"RAM_BLOCK_SP": 0}),
|
|
Test("sp_nc_old", SP_NO_CHANGE, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_new_old", SP_NEW, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_old_old", SP_OLD, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_nc_new_only", SP_NO_CHANGE, ["block_sp"], ["RDWR_NEW_ONLY"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_new_new_only", SP_NEW, ["block_sp"], ["RDWR_NEW_ONLY"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_old_new_only", SP_OLD, ["block_sp"], ["RDWR_NEW_ONLY"], {"RAM_BLOCK_SP": 0}),
|
|
Test("sp_nc_new_only_be", SP_NO_CHANGE_BE, ["block_sp"], ["RDWR_NEW_ONLY"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_new_new_only_be", SP_NEW_BE, ["block_sp"], ["RDWR_NEW_ONLY"], {"RAM_BLOCK_SP": 2}),
|
|
Test("sp_old_new_only_be", SP_OLD_BE, ["block_sp"], ["RDWR_NEW_ONLY"], {"RAM_BLOCK_SP": 0}),
|
|
Test("sp_nc_new_be", SP_NO_CHANGE_BE, ["block_sp"], ["RDWR_NEW"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_new_new_be", SP_NEW_BE, ["block_sp"], ["RDWR_NEW"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_old_new_be", SP_OLD_BE, ["block_sp"], ["RDWR_NEW"], {"RAM_BLOCK_SP": 0}),
|
|
Test("sp_nc_old_be", SP_NO_CHANGE_BE, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_new_old_be", SP_NEW_BE, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_old_old_be", SP_OLD_BE, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_nc_nc_be", SP_NO_CHANGE_BE, ["block_sp"], ["RDWR_NO_CHANGE"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_new_nc_be", SP_NEW_BE, ["block_sp"], ["RDWR_NO_CHANGE"], {"RAM_BLOCK_SP": 2}),
|
|
Test("sp_old_nc_be", SP_OLD_BE, ["block_sp"], ["RDWR_NO_CHANGE"], {"RAM_BLOCK_SP": 0}),
|
|
Test("sp_nc_auto", SP_NO_CHANGE, ["block_sp"], ["RDWR_NO_CHANGE", "RDWR_OLD", "RDWR_NEW"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_new_auto", SP_NEW, ["block_sp"], ["RDWR_NO_CHANGE", "RDWR_OLD", "RDWR_NEW"], {"RAM_BLOCK_SP": (1, {"OPTION_RDWR": "NEW"})}),
|
|
Test("sp_old_auto", SP_OLD, ["block_sp"], ["RDWR_NO_CHANGE", "RDWR_OLD", "RDWR_NEW"], {"RAM_BLOCK_SP": (1, {"OPTION_RDWR": "OLD"})}),
|
|
Test("sp_nc_auto_be", SP_NO_CHANGE_BE, ["block_sp"], ["RDWR_NO_CHANGE", "RDWR_OLD", "RDWR_NEW"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_new_auto_be", SP_NEW_BE, ["block_sp"], ["RDWR_NO_CHANGE", "RDWR_OLD", "RDWR_NEW"], {"RAM_BLOCK_SP": (1, {"OPTION_RDWR": "NEW"})}),
|
|
Test("sp_old_auto_be", SP_OLD_BE, ["block_sp"], ["RDWR_NO_CHANGE", "RDWR_OLD", "RDWR_NEW"], {"RAM_BLOCK_SP": (1, {"OPTION_RDWR": "OLD"})}),
|
|
]
|
|
|
|
# Synchronous read port with initial value
|
|
SP_INIT = """
|
|
module top(clk, addr, rd, wd, we, re);
|
|
|
|
input wire clk;
|
|
input wire we, re;
|
|
input wire [3:0] addr;
|
|
input wire [15:0] wd;
|
|
output reg [15:0] rd;
|
|
|
|
reg [15:0] mem [0:15];
|
|
|
|
initial rd = {ival};
|
|
|
|
always @(posedge clk) begin
|
|
if (we)
|
|
mem[addr] <= wd;
|
|
if (re)
|
|
rd <= mem[addr];
|
|
end
|
|
|
|
endmodule
|
|
"""
|
|
|
|
SP_INIT_X = SP_INIT.format(ival="16'hxxxx")
|
|
SP_INIT_0 = SP_INIT.format(ival="16'h0000")
|
|
SP_INIT_V = SP_INIT.format(ival="16'h55aa")
|
|
|
|
TESTS += [
|
|
Test("sp_init_x_x", SP_INIT_X, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_init_x_x_re", SP_INIT_X, ["block_sp"], ["RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_init_x_x_ce", SP_INIT_X, ["block_sp"], ["CLKEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_init_0_x", SP_INIT_0, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_init_0_x_re", SP_INIT_0, ["block_sp"], ["RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_init_0_0", SP_INIT_0, ["block_sp"], ["RDINIT_0", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_init_0_0_re", SP_INIT_0, ["block_sp"], ["RDINIT_0", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_init_0_any", SP_INIT_0, ["block_sp"], ["RDINIT_ANY", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_init_0_any_re", SP_INIT_0, ["block_sp"], ["RDINIT_ANY", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_init_v_x", SP_INIT_V, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_init_v_x_re", SP_INIT_V, ["block_sp"], ["RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_init_v_0", SP_INIT_V, ["block_sp"], ["RDINIT_0", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_init_v_0_re", SP_INIT_V, ["block_sp"], ["RDINIT_0", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_init_v_any", SP_INIT_V, ["block_sp"], ["RDINIT_ANY", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_init_v_any_re", SP_INIT_V, ["block_sp"], ["RDINIT_ANY", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
]
|
|
|
|
# Synchronous read port with asynchronous reset
|
|
SP_ARST = """
|
|
module top(clk, addr, rd, wd, we, re, ar);
|
|
|
|
input wire clk;
|
|
input wire we, re, ar;
|
|
input wire [3:0] addr;
|
|
input wire [15:0] wd;
|
|
output reg [15:0] rd;
|
|
|
|
reg [15:0] mem [0:15];
|
|
|
|
initial rd = {ival};
|
|
|
|
always @(posedge clk) begin
|
|
if (we)
|
|
mem[addr] <= wd;
|
|
end
|
|
always @(posedge clk, posedge ar) begin
|
|
if (ar)
|
|
rd <= {aval};
|
|
else if (re)
|
|
rd <= mem[addr];
|
|
end
|
|
|
|
endmodule
|
|
"""
|
|
|
|
SP_ARST_X = SP_ARST.format(ival="16'hxxxx", aval="16'hxxxx")
|
|
SP_ARST_0 = SP_ARST.format(ival="16'hxxxx", aval="16'h0000")
|
|
SP_ARST_V = SP_ARST.format(ival="16'hxxxx", aval="16'h55aa")
|
|
SP_ARST_E = SP_ARST.format(ival="16'h55aa", aval="16'h55aa")
|
|
SP_ARST_N = SP_ARST.format(ival="16'h1234", aval="16'h55aa")
|
|
|
|
TESTS += [
|
|
Test("sp_arst_x_x", SP_ARST_X, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_x_x_re", SP_ARST_X, ["block_sp"], ["RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_0_x", SP_ARST_0, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_0_x_re", SP_ARST_0, ["block_sp"], ["RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_0_0", SP_ARST_0, ["block_sp"], ["RDINIT_ANY", "RDARST_0", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_0_0_re", SP_ARST_0, ["block_sp"], ["RDINIT_ANY", "RDARST_0", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_0_any", SP_ARST_0, ["block_sp"], ["RDINIT_ANY", "RDARST_ANY", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_0_any_re", SP_ARST_0, ["block_sp"], ["RDINIT_ANY", "RDARST_ANY", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_0_init", SP_ARST_0, ["block_sp"], ["RDINIT_ANY", "RDARST_INIT", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_0_init_re", SP_ARST_0, ["block_sp"], ["RDINIT_ANY", "RDARST_INIT", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_v_x", SP_ARST_V, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_v_x_re", SP_ARST_V, ["block_sp"], ["RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_v_0", SP_ARST_V, ["block_sp"], ["RDINIT_ANY", "RDARST_0", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_v_0_re", SP_ARST_V, ["block_sp"], ["RDINIT_ANY", "RDARST_0", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_v_any", SP_ARST_V, ["block_sp"], ["RDINIT_ANY", "RDARST_ANY", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_v_any_re", SP_ARST_V, ["block_sp"], ["RDINIT_ANY", "RDARST_ANY", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_v_init", SP_ARST_V, ["block_sp"], ["RDINIT_ANY", "RDARST_INIT", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_v_init_re", SP_ARST_V, ["block_sp"], ["RDINIT_ANY", "RDARST_INIT", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_e_x", SP_ARST_E, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_e_x_re", SP_ARST_E, ["block_sp"], ["RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_e_0", SP_ARST_E, ["block_sp"], ["RDINIT_ANY", "RDARST_0", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_e_0_re", SP_ARST_E, ["block_sp"], ["RDINIT_ANY", "RDARST_0", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_e_any", SP_ARST_E, ["block_sp"], ["RDINIT_ANY", "RDARST_ANY", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_e_any_re", SP_ARST_E, ["block_sp"], ["RDINIT_ANY", "RDARST_ANY", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_e_init", SP_ARST_E, ["block_sp"], ["RDINIT_ANY", "RDARST_INIT", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_e_init_re", SP_ARST_E, ["block_sp"], ["RDINIT_ANY", "RDARST_INIT", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_n_x", SP_ARST_N, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_n_x_re", SP_ARST_N, ["block_sp"], ["RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_n_0", SP_ARST_N, ["block_sp"], ["RDINIT_ANY", "RDARST_0", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_n_0_re", SP_ARST_N, ["block_sp"], ["RDINIT_ANY", "RDARST_0", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_n_any", SP_ARST_N, ["block_sp"], ["RDINIT_ANY", "RDARST_ANY", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_n_any_re", SP_ARST_N, ["block_sp"], ["RDINIT_ANY", "RDARST_ANY", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_n_init", SP_ARST_N, ["block_sp"], ["RDINIT_ANY", "RDARST_INIT", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_arst_n_init_re", SP_ARST_N, ["block_sp"], ["RDINIT_ANY", "RDARST_INIT", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
]
|
|
|
|
# Synchronous read port with synchronous reset (reset priority over enable)
|
|
SP_SRST = """
|
|
module top(clk, addr, rd, wd, we, re, sr);
|
|
|
|
input wire clk;
|
|
input wire we, re, sr;
|
|
input wire [3:0] addr;
|
|
input wire [15:0] wd;
|
|
output reg [15:0] rd;
|
|
|
|
reg [15:0] mem [0:15];
|
|
|
|
initial rd = {ival};
|
|
|
|
always @(posedge clk) begin
|
|
if (we)
|
|
mem[addr] <= wd;
|
|
end
|
|
always @(posedge clk) begin
|
|
if (sr)
|
|
rd <= {sval};
|
|
else if (re)
|
|
rd <= mem[addr];
|
|
end
|
|
|
|
endmodule
|
|
"""
|
|
|
|
# Synchronous read port with synchronous reet (enable priority over reset)
|
|
SP_SRST_G = """
|
|
module top(clk, addr, rd, wd, we, re, sr);
|
|
|
|
input wire clk;
|
|
input wire we, re, sr;
|
|
input wire [3:0] addr;
|
|
input wire [15:0] wd;
|
|
output reg [15:0] rd;
|
|
|
|
reg [15:0] mem [0:15];
|
|
|
|
initial rd = {ival};
|
|
|
|
always @(posedge clk) begin
|
|
if (we)
|
|
mem[addr] <= wd;
|
|
end
|
|
always @(posedge clk) begin
|
|
if (re) begin
|
|
if (sr)
|
|
rd <= {sval};
|
|
else
|
|
rd <= mem[addr];
|
|
end
|
|
end
|
|
|
|
endmodule
|
|
"""
|
|
|
|
SP_SRST_X = SP_SRST.format(ival="16'hxxxx", sval="16'hxxxx")
|
|
SP_SRST_0 = SP_SRST.format(ival="16'hxxxx", sval="16'h0000")
|
|
SP_SRST_V = SP_SRST.format(ival="16'hxxxx", sval="16'h55aa")
|
|
SP_SRST_E = SP_SRST.format(ival="16'h55aa", sval="16'h55aa")
|
|
SP_SRST_N = SP_SRST.format(ival="16'h1234", sval="16'h55aa")
|
|
SP_SRST_GV = SP_SRST_G.format(ival="16'hxxxx", sval="16'h55aa")
|
|
|
|
TESTS += [
|
|
Test("sp_srst_x_x", SP_SRST_X, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_x_x_re", SP_SRST_X, ["block_sp"], ["RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_0_x", SP_SRST_0, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_0_x_re", SP_SRST_0, ["block_sp"], ["RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_0_0", SP_SRST_0, ["block_sp"], ["RDINIT_ANY", "RDSRST_0", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_0_0_re", SP_SRST_0, ["block_sp"], ["RDINIT_ANY", "RDSRST_0", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_0_any", SP_SRST_0, ["block_sp"], ["RDINIT_ANY", "RDSRST_ANY", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_0_any_re", SP_SRST_0, ["block_sp"], ["RDINIT_ANY", "RDSRST_ANY", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_0_init", SP_SRST_0, ["block_sp"], ["RDINIT_ANY", "RDSRST_INIT", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_0_init_re", SP_SRST_0, ["block_sp"], ["RDINIT_ANY", "RDSRST_INIT", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_v_x", SP_SRST_V, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_v_x_re", SP_SRST_V, ["block_sp"], ["RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_v_0", SP_SRST_V, ["block_sp"], ["RDINIT_ANY", "RDSRST_0", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_v_0_re", SP_SRST_V, ["block_sp"], ["RDINIT_ANY", "RDSRST_0", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_v_any", SP_SRST_V, ["block_sp"], ["RDINIT_ANY", "RDSRST_ANY", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_v_any_re", SP_SRST_V, ["block_sp"], ["RDINIT_ANY", "RDSRST_ANY", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_v_any_re_gated", SP_SRST_V, ["block_sp"], ["RDINIT_ANY", "RDSRST_ANY_RE", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_v_any_ce", SP_SRST_V, ["block_sp"], ["RDINIT_ANY", "RDSRST_ANY", "CLKEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_v_any_ce_gated", SP_SRST_V, ["block_sp"], ["RDINIT_ANY", "RDSRST_ANY_CE", "CLKEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_v_init", SP_SRST_V, ["block_sp"], ["RDINIT_ANY", "RDSRST_INIT", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_v_init_re", SP_SRST_V, ["block_sp"], ["RDINIT_ANY", "RDSRST_INIT", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_e_x", SP_SRST_E, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_e_x_re", SP_SRST_E, ["block_sp"], ["RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_e_0", SP_SRST_E, ["block_sp"], ["RDINIT_ANY", "RDSRST_0", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_e_0_re", SP_SRST_E, ["block_sp"], ["RDINIT_ANY", "RDSRST_0", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_e_any", SP_SRST_E, ["block_sp"], ["RDINIT_ANY", "RDSRST_ANY", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_e_any_re", SP_SRST_E, ["block_sp"], ["RDINIT_ANY", "RDSRST_ANY", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_e_init", SP_SRST_E, ["block_sp"], ["RDINIT_ANY", "RDSRST_INIT", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_e_init_re", SP_SRST_E, ["block_sp"], ["RDINIT_ANY", "RDSRST_INIT", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_n_x", SP_SRST_N, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_n_x_re", SP_SRST_N, ["block_sp"], ["RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_n_0", SP_SRST_N, ["block_sp"], ["RDINIT_ANY", "RDSRST_0", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_n_0_re", SP_SRST_N, ["block_sp"], ["RDINIT_ANY", "RDSRST_0", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_n_any", SP_SRST_N, ["block_sp"], ["RDINIT_ANY", "RDSRST_ANY", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_n_any_re", SP_SRST_N, ["block_sp"], ["RDINIT_ANY", "RDSRST_ANY", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_n_init", SP_SRST_N, ["block_sp"], ["RDINIT_ANY", "RDSRST_INIT", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_n_init_re", SP_SRST_N, ["block_sp"], ["RDINIT_ANY", "RDSRST_INIT", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_gv_x", SP_SRST_GV, ["block_sp"], ["RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_gv_x_re", SP_SRST_GV, ["block_sp"], ["RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_gv_0", SP_SRST_GV, ["block_sp"], ["RDINIT_ANY", "RDSRST_0", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_gv_0_re", SP_SRST_GV, ["block_sp"], ["RDINIT_ANY", "RDSRST_0", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_gv_any", SP_SRST_GV, ["block_sp"], ["RDINIT_ANY", "RDSRST_ANY", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_gv_any_re", SP_SRST_GV, ["block_sp"], ["RDINIT_ANY", "RDSRST_ANY", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_gv_any_re_gated", SP_SRST_GV, ["block_sp"], ["RDINIT_ANY", "RDSRST_ANY_RE", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_gv_any_ce", SP_SRST_GV, ["block_sp"], ["RDINIT_ANY", "RDSRST_ANY", "CLKEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_gv_any_ce_gated", SP_SRST_GV, ["block_sp"], ["RDINIT_ANY", "RDSRST_ANY_CE", "CLKEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_gv_init", SP_SRST_GV, ["block_sp"], ["RDINIT_ANY", "RDSRST_INIT", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
Test("sp_srst_gv_init_re", SP_SRST_GV, ["block_sp"], ["RDINIT_ANY", "RDSRST_INIT", "RDEN", "RDWR_OLD"], {"RAM_BLOCK_SP": 1}),
|
|
]
|
|
|
|
# Byte enables, wrbe_separate
|
|
SYNC_ENABLE = """
|
|
module top(clk, rwa, rd, wd, we);
|
|
|
|
localparam ABITS = {abits};
|
|
localparam DBITS = {dbits};
|
|
|
|
input wire clk;
|
|
input wire we;
|
|
input wire [ABITS-1:0] rwa;
|
|
input wire [DBITS-1:0] wd;
|
|
output reg [DBITS-1:0] rd;
|
|
|
|
reg [DBITS-1:0] mem [0:2**ABITS-1];
|
|
|
|
always @(posedge clk) begin
|
|
if (we)
|
|
mem[rwa] <= wd;
|
|
else
|
|
rd <= mem[rwa];
|
|
end
|
|
|
|
endmodule
|
|
"""
|
|
|
|
for (abits, dbits, sep, defs, cells) in [
|
|
(4, 4, False, ["NO_BYTE"], {"RAM_WREN": 1}),
|
|
(5, 4, False, ["NO_BYTE"], {"RAM_WREN": 2}),
|
|
(6, 4, False, ["NO_BYTE"], {"RAM_WREN": 4}),
|
|
# (4, 4, True, ["NO_BYTE"], {"RAM_WREN": 1}), # should throw an error
|
|
(3, 8, False, ["NO_BYTE"], {"RAM_WREN": 2}), # needs two write ports
|
|
(4, 8, False, ["NO_BYTE"], {"RAM_WREN": 2}),
|
|
(4, 4, False, ["W4_B4"], {"RAM_WREN": 1}),
|
|
(4, 8, True, ["W4_B4"], {"RAM_WREN": 2}),
|
|
(4, 8, False, ["W8_B4"], {"RAM_WREN": 1}),
|
|
(4, 8, True, ["W8_B4"], {"RAM_WREN": 1}),
|
|
(4, 8, False, ["W8_B8"], {"RAM_WREN": 1}),
|
|
(4, 8, True, ["W8_B8"], {"RAM_WREN": 1}),
|
|
|
|
]:
|
|
name = f"wren_a{abits}d{dbits}_{defs[0]}"
|
|
if (sep):
|
|
defs.append("WRBE_SEPARATE")
|
|
name += "_separate"
|
|
|
|
TESTS.append(Test(
|
|
name, SYNC_ENABLE.format(abits=abits, dbits=dbits),
|
|
["wren"], defs, cells
|
|
))
|
|
|
|
# Write port with byte enables
|
|
ENABLES = """
|
|
module top(clk, we, be, rwa, wd, rd);
|
|
|
|
localparam ABITS = {abits};
|
|
localparam WBITS = {wbits};
|
|
localparam WORDS = {words};
|
|
|
|
input wire clk;
|
|
input wire we;
|
|
input wire [WORDS-1:0] be;
|
|
input wire [ABITS-1:0] rwa;
|
|
input wire [(WBITS*WORDS)-1:0] wd;
|
|
output reg [(WBITS*WORDS)-1:0] rd;
|
|
|
|
reg [(WBITS*WORDS)-1:0] mem [0:2**ABITS-1];
|
|
|
|
integer i;
|
|
always @(posedge clk)
|
|
for (i=0; i<WORDS; i=i+1)
|
|
if (we && be[i])
|
|
mem[rwa][i*WBITS+:WBITS] <= wd[i*WBITS+:WBITS];
|
|
|
|
always @(posedge clk)
|
|
if (!we)
|
|
rd <= mem[rwa];
|
|
|
|
endmodule
|
|
"""
|
|
|
|
for (abits, wbits, words, defs, cells) in [
|
|
(4, 2, 8, ["W16_B4"], {"RAM_WREN": 2}),
|
|
(4, 4, 4, ["W16_B4"], {"RAM_WREN": 1}),
|
|
(5, 4, 2, ["W16_B4"], {"RAM_WREN": 1}),
|
|
(5, 4, 4, ["W16_B4"], {"RAM_WREN": 2}),
|
|
(4, 8, 2, ["W16_B4"], {"RAM_WREN": 1}),
|
|
(5, 8, 1, ["W16_B4"], {"RAM_WREN": 1}),
|
|
(5, 8, 2, ["W16_B4"], {"RAM_WREN": 2}),
|
|
(4,16, 1, ["W16_B4"], {"RAM_WREN": 1}),
|
|
(4, 4, 2, ["W8_B8"], {"RAM_WREN": 2}),
|
|
(4, 4, 1, ["W8_B8"], {"RAM_WREN": 1}),
|
|
(4, 8, 2, ["W8_B8"], {"RAM_WREN": 2}),
|
|
(3, 8, 2, ["W8_B8"], {"RAM_WREN": 2}),
|
|
(4, 4, 2, ["W8_B4"], {"RAM_WREN": 1}),
|
|
(4, 2, 4, ["W8_B4"], {"RAM_WREN": 2}),
|
|
(4, 4, 4, ["W8_B4"], {"RAM_WREN": 2}),
|
|
(4, 4, 4, ["W4_B4"], {"RAM_WREN": 4}),
|
|
(4, 4, 5, ["W4_B4"], {"RAM_WREN": 5}),
|
|
|
|
]:
|
|
name = f"wren_a{abits}d{wbits}w{words}_{defs[0]}"
|
|
TESTS.append(Test(
|
|
name, ENABLES.format(abits=abits, wbits=wbits, words=words),
|
|
["wren"], defs, cells
|
|
))
|
|
|
|
defs.append("WRBE_SEPARATE")
|
|
name += "_separate"
|
|
TESTS.append(Test(
|
|
name, ENABLES.format(abits=abits, wbits=wbits, words=words),
|
|
["wren"], defs, cells
|
|
))
|
|
|
|
# abits/dbits determination (aka general geometry picking)
|
|
GEOMETRIC = """
|
|
module top(clk, rwa, rd, wd, we);
|
|
|
|
localparam ABITS = {abits};
|
|
localparam DBITS = {dbits};
|
|
|
|
input wire clk;
|
|
input wire we;
|
|
input wire [ABITS-1:0] rwa;
|
|
input wire [DBITS-1:0] wd;
|
|
output reg [DBITS-1:0] rd;
|
|
|
|
(* ram_style="block" *)
|
|
reg [DBITS-1:0] mem [0:2**ABITS-1];
|
|
|
|
always @(posedge clk)
|
|
if (we)
|
|
mem[rwa] <= wd;
|
|
else
|
|
rd <= mem[rwa];
|
|
|
|
endmodule
|
|
"""
|
|
|
|
for (abits,dbits, libs, defs, cells) in [
|
|
# W64_B8 gives 16 * 64 = 1024 bits of memory with up to 8x8b rw ports
|
|
( 4, 64, ["wren"], ["W64_B8"], {"RAM_WREN": 1}),
|
|
( 5, 32, ["wren"], ["W64_B8"], {"RAM_WREN": 1}),
|
|
( 5, 64, ["wren"], ["W64_B8"], {"RAM_WREN": 2}),
|
|
( 6, 16, ["wren"], ["W64_B8"], {"RAM_WREN": 1}),
|
|
( 6, 30, ["wren"], ["W64_B8"], {"RAM_WREN": 2}),
|
|
( 6, 64, ["wren"], ["W64_B8"], {"RAM_WREN": 4}),
|
|
( 7, 4, ["wren"], ["W64_B8"], {"RAM_WREN": 1}),
|
|
( 7, 6, ["wren"], ["W64_B8"], {"RAM_WREN": 1}),
|
|
( 7, 8, ["wren"], ["W64_B8"], {"RAM_WREN": 1}),
|
|
( 7, 17, ["wren"], ["W64_B8"], {"RAM_WREN": 3}),
|
|
( 8, 4, ["wren"], ["W64_B8"], {"RAM_WREN": 2}),
|
|
( 8, 6, ["wren"], ["W64_B8"], {"RAM_WREN": 2}),
|
|
( 9, 4, ["wren"], ["W64_B8"], {"RAM_WREN": 4}),
|
|
( 9, 8, ["wren"], ["W64_B8"], {"RAM_WREN": 4}),
|
|
( 9, 5, ["wren"], ["W64_B8"], {"RAM_WREN": 4}),
|
|
( 9, 6, ["wren"], ["W64_B8"], {"RAM_WREN": 4}),
|
|
# 9b1B gives 128 bits of memory with 1 2 or 4 bit read and write ports
|
|
# or 144 bits with 9 or 18 bit read and write ports
|
|
( 3, 18, ["9b1B"], ["INIT_NONE"], {"RAM_9b1B": 1}),
|
|
( 4, 4, ["9b1B"], ["INIT_NONE"], {"RAM_9b1B": 1}),
|
|
( 4, 18, ["9b1B"], ["INIT_NONE"], {"RAM_9b1B": 2}),
|
|
( 5, 32, ["9b1B"], ["INIT_NONE"], {"RAM_9b1B": 8}),
|
|
( 6, 4, ["9b1B"], ["INIT_NONE"], {"RAM_9b1B": 2}),
|
|
( 7, 11, ["9b1B"], ["INIT_NONE"], {"RAM_9b1B": 11}),
|
|
( 7, 18, ["9b1B"], ["INIT_NONE"], {"RAM_9b1B": 16}),
|
|
( 11, 1, ["9b1B"], ["INIT_NONE"], {"RAM_9b1B": 16}),
|
|
]:
|
|
name = f"geom_a{abits}d{dbits}_{libs[0]}"
|
|
TESTS.append(Test(
|
|
name, GEOMETRIC.format(abits=abits, dbits=dbits),
|
|
libs, defs, cells
|
|
))
|
|
|
|
# Mixed width testing
|
|
WIDE_SDP = """
|
|
module top(rclk, ra, rd, re, rr, wclk, wa, wd, we);
|
|
|
|
input wire rclk, wclk, re, rr;
|
|
input wire [2**({ww}-{bw})-1:0] we;
|
|
input wire [{aw}-{rw}+{xw}-1:0] ra;
|
|
input wire [{aw}-{ww}+{xw}-1:0] wa;
|
|
input wire [2**{ww}-1:0] wd;
|
|
output reg [2**{rw}-1:0] rd;
|
|
|
|
reg mem [0:2**{aw}-1];
|
|
|
|
initial mem[3] = 0;
|
|
initial mem[17] = 1;
|
|
initial mem[23] = 0;
|
|
initial mem[24] = 1;
|
|
|
|
integer i, j;
|
|
always @(posedge wclk)
|
|
for (i = 0; i < 2**{ww}; i = i + 2**{bw})
|
|
if (we[i >> {bw}])
|
|
for (j = 0; j < 2**{bw}; j = j + 1)
|
|
mem[wa << {ww} | i | j] <= wd[i | j];
|
|
|
|
always @(posedge rclk)
|
|
if (rr)
|
|
rd <= {sval};
|
|
else if (re)
|
|
for (i = 0; i < 2**{rw}; i = i + 1)
|
|
rd[i] <= mem[ra << {rw} | i];
|
|
|
|
endmodule
|
|
"""
|
|
|
|
for (aw, rw, ww, bw, xw, sval, cnt) in [
|
|
(6, 1, 1, 1, 1, "2'h1", 1),
|
|
(7, 1, 1, 1, 1, "2'h2", 2),
|
|
(8, 1, 1, 1, 1, "2'h3", 4),
|
|
(6, 0, 0, 0, 0, "2'h0", 1),
|
|
(6, 1, 0, 0, 0, "2'h0", 1),
|
|
(6, 2, 0, 0, 0, "2'h0", 1),
|
|
(6, 3, 0, 0, 0, "2'h0", 1),
|
|
(6, 4, 0, 0, 0, "2'h0", 1),
|
|
(6, 5, 0, 0, 0, "2'h0", 2),
|
|
(6, 0, 1, 0, 0, "2'h0", 2),
|
|
(6, 0, 1, 1, 0, "2'h0", 1),
|
|
(6, 0, 2, 0, 0, "2'h0", 4),
|
|
(6, 0, 2, 2, 0, "2'h0", 1),
|
|
(6, 0, 3, 2, 0, "2'h0", 1),
|
|
(6, 0, 4, 2, 0, "2'h0", 1),
|
|
(6, 0, 5, 2, 0, "2'h0", 2),
|
|
(7, 0, 0, 0, 0, "2'h0", 2),
|
|
(7, 1, 0, 0, 0, "2'h0", 2),
|
|
(7, 2, 0, 0, 0, "2'h0", 2),
|
|
(7, 3, 0, 0, 0, "2'h0", 2),
|
|
(7, 4, 0, 0, 0, "2'h0", 2),
|
|
(7, 5, 0, 0, 0, "2'h0", 2),
|
|
(7, 0, 1, 0, 0, "2'h0", 2),
|
|
(7, 0, 1, 1, 0, "2'h0", 2),
|
|
(7, 0, 2, 0, 0, "2'h0", 4),
|
|
(7, 0, 2, 2, 0, "2'h0", 2),
|
|
(7, 0, 3, 2, 0, "2'h0", 2),
|
|
(7, 0, 4, 2, 0, "2'h0", 2),
|
|
(7, 0, 5, 2, 0, "2'h0", 2),
|
|
]:
|
|
TESTS.append(Test(
|
|
f"wide_sdp_a{aw}r{rw}w{ww}b{bw}x{xw}",
|
|
WIDE_SDP.format(aw=aw, rw=rw, ww=ww, bw=bw, xw=xw, sval=sval),
|
|
["wide_sdp"], [],
|
|
{"RAM_WIDE_SDP": cnt}
|
|
))
|
|
|
|
WIDE_SP = """
|
|
module top(clk, a, rd, re, rr, wd, we);
|
|
|
|
input wire clk, re, rr;
|
|
input wire [2**({ww}-{bw})-1:0] we;
|
|
input wire [{aw}-1:0] a;
|
|
input wire [2**{ww}-1:0] wd;
|
|
output reg [2**{rw}-1:0] rd;
|
|
|
|
reg mem [0:2**{aw}-1];
|
|
|
|
initial mem[3] = 0;
|
|
initial mem[17] = 1;
|
|
initial mem[23] = 0;
|
|
initial mem[24] = 1;
|
|
|
|
integer i, j;
|
|
always @(posedge clk) begin
|
|
for (i = 0; i < 2**{ww}; i = i + 2**{bw})
|
|
if (we[i >> {bw}])
|
|
for (j = 0; j < 2**{bw}; j = j + 1)
|
|
mem[a & ~((1 << {ww}) - 1) | i | j] <= wd[i | j];
|
|
if (rr)
|
|
rd <= {sval};
|
|
else if (re)
|
|
for (i = 0; i < 2**{rw}; i = i + 1)
|
|
rd[i] <= mem[a & ~((1 << {rw}) - 1) | i];
|
|
end
|
|
|
|
endmodule
|
|
"""
|
|
|
|
for (aw, rw, ww, bw, sval, cnt) in [
|
|
(6, 1, 1, 1, "2'h1", 1),
|
|
(7, 1, 1, 1, "2'h2", 2),
|
|
(8, 1, 1, 1, "2'h3", 4),
|
|
(6, 0, 0, 0, "2'h0", 1),
|
|
(6, 1, 0, 0, "2'h0", 1),
|
|
(6, 2, 0, 0, "2'h0", 1),
|
|
(6, 3, 0, 0, "2'h0", 1),
|
|
(6, 4, 0, 0, "2'h0", 1),
|
|
(6, 5, 0, 0, "2'h0", 2),
|
|
(6, 0, 1, 0, "2'h0", 2),
|
|
(6, 0, 1, 1, "2'h0", 1),
|
|
(6, 0, 2, 0, "2'h0", 4),
|
|
(6, 0, 2, 2, "2'h0", 1),
|
|
(6, 0, 3, 2, "2'h0", 1),
|
|
(6, 0, 4, 2, "2'h0", 1),
|
|
(6, 0, 5, 2, "2'h0", 2),
|
|
(7, 0, 0, 0, "2'h0", 2),
|
|
(7, 1, 0, 0, "2'h0", 2),
|
|
(7, 2, 0, 0, "2'h0", 2),
|
|
(7, 3, 0, 0, "2'h0", 2),
|
|
(7, 4, 0, 0, "2'h0", 2),
|
|
(7, 5, 0, 0, "2'h0", 2),
|
|
(7, 0, 1, 0, "2'h0", 2),
|
|
(7, 0, 1, 1, "2'h0", 2),
|
|
(7, 0, 2, 0, "2'h0", 4),
|
|
(7, 0, 2, 2, "2'h0", 2),
|
|
(7, 0, 3, 2, "2'h0", 2),
|
|
(7, 0, 4, 2, "2'h0", 2),
|
|
(7, 0, 5, 2, "2'h0", 2),
|
|
]:
|
|
TESTS.append(Test(
|
|
f"wide_sp_mix_a{aw}r{rw}w{ww}b{bw}",
|
|
WIDE_SP.format(aw=aw, rw=rw, ww=ww, bw=bw, sval=sval),
|
|
["wide_sp"], ["WIDTH_MIX"],
|
|
{"RAM_WIDE_SP": cnt}
|
|
))
|
|
|
|
for (aw, rw, ww, bw, sval, cnt) in [
|
|
(6, 1, 1, 1, "2'h1", 1),
|
|
(7, 1, 1, 1, "2'h2", 2),
|
|
(8, 1, 1, 1, "2'h3", 4),
|
|
(6, 0, 0, 0, "2'h0", 1),
|
|
(6, 1, 0, 0, "2'h0", 2),
|
|
(6, 2, 0, 0, "2'h0", 4),
|
|
(6, 3, 0, 0, "2'h0", 4),
|
|
(6, 4, 0, 0, "2'h0", 4),
|
|
(6, 5, 0, 0, "2'h0", 8),
|
|
(6, 0, 1, 0, "2'h0", 2),
|
|
(6, 0, 1, 1, "2'h0", 1),
|
|
(6, 0, 2, 0, "2'h0", 4),
|
|
(6, 0, 2, 2, "2'h0", 1),
|
|
(6, 0, 3, 2, "2'h0", 1),
|
|
(6, 0, 4, 2, "2'h0", 1),
|
|
(6, 0, 5, 2, "2'h0", 2),
|
|
(7, 0, 0, 0, "2'h0", 2),
|
|
(7, 1, 0, 0, "2'h0", 2),
|
|
(7, 2, 0, 0, "2'h0", 4),
|
|
(7, 3, 0, 0, "2'h0", 8),
|
|
(7, 4, 0, 0, "2'h0", 8),
|
|
(7, 5, 0, 0, "2'h0", 8),
|
|
(7, 0, 1, 0, "2'h0", 2),
|
|
(7, 0, 1, 1, "2'h0", 2),
|
|
(7, 0, 2, 0, "2'h0", 4),
|
|
(7, 0, 2, 2, "2'h0", 2),
|
|
(7, 0, 3, 2, "2'h0", 2),
|
|
(7, 0, 4, 2, "2'h0", 2),
|
|
(7, 0, 5, 2, "2'h0", 2),
|
|
]:
|
|
TESTS.append(Test(
|
|
f"wide_sp_tied_a{aw}r{rw}w{ww}b{bw}",
|
|
WIDE_SP.format(aw=aw, rw=rw, ww=ww, bw=bw, sval=sval),
|
|
["wide_sp"], [],
|
|
{"RAM_WIDE_SP": cnt}
|
|
))
|
|
|
|
WIDE_RW = """
|
|
module top(clk, a, rd, re, wd, we);
|
|
|
|
input wire clk, re;
|
|
input wire [2**({ww}-{bw})-1:0] we;
|
|
input wire [{aw}-1:0] a;
|
|
input wire [2**{ww}-1:0] wd;
|
|
output reg [2**{rw}-1:0] rd;
|
|
|
|
(* ram_block *)
|
|
reg mem [0:2**{aw}-1];
|
|
|
|
initial mem[3] = 0;
|
|
initial mem[17] = 1;
|
|
initial mem[23] = 0;
|
|
initial mem[24] = 1;
|
|
|
|
integer i, j;
|
|
always @(posedge clk) begin
|
|
for (i = 0; i < 2**{ww}; i = i + 2**{bw})
|
|
if (we[i >> {bw}])
|
|
for (j = 0; j < 2**{bw}; j = j + 1)
|
|
mem[a & ~((1 << {ww}) - 1) | i | j] <= wd[i | j];
|
|
if (re)
|
|
for (i = 0; i < 2**{rw}; i = i + 1)
|
|
rd[i] <= mem[a & ~((1 << {rw}) - 1) | i];
|
|
end
|
|
|
|
endmodule
|
|
"""
|
|
|
|
for (aw, rw, ww, bw, cntww, cntwr) in [
|
|
(6, 1, 1, 1, 2, 1),
|
|
(7, 1, 1, 1, 4, 2),
|
|
(8, 1, 1, 1, 8, 4),
|
|
(6, 0, 0, 0, 4, 2),
|
|
(6, 1, 0, 0, 4, 2),
|
|
(6, 2, 0, 0, 4, 2),
|
|
(6, 3, 0, 0, 8, 2),
|
|
(6, 4, 0, 0, 16, 4),
|
|
(6, 5, 0, 0, 32, 8),
|
|
(6, 0, 1, 0, 4, 2),
|
|
(6, 0, 1, 1, 2, 1),
|
|
(6, 0, 2, 0, 4, 4),
|
|
(6, 0, 2, 2, 1, 2),
|
|
(6, 0, 3, 2, 1, 4),
|
|
(6, 0, 4, 2, 2, 8),
|
|
(6, 0, 5, 2, 4, 16),
|
|
(7, 0, 0, 0, 8, 4),
|
|
(7, 1, 0, 0, 8, 4),
|
|
(7, 2, 0, 0, 8, 4),
|
|
(7, 3, 0, 0, 8, 4),
|
|
(7, 4, 0, 0, 16, 4),
|
|
(7, 5, 0, 0, 32, 8),
|
|
(7, 0, 1, 0, 8, 4),
|
|
(7, 0, 1, 1, 4, 2),
|
|
(7, 0, 2, 0, 8, 4),
|
|
(7, 0, 2, 2, 2, 2),
|
|
(7, 0, 3, 2, 2, 4),
|
|
(7, 0, 4, 2, 2, 8),
|
|
(7, 0, 5, 2, 4, 16),
|
|
]:
|
|
TESTS.append(Test(
|
|
f"wide_read_a{aw}r{rw}w{ww}b{bw}",
|
|
WIDE_RW.format(aw=aw, rw=rw, ww=ww, bw=bw),
|
|
["wide_read"], [],
|
|
{"RAM_WIDE_READ": cntwr}
|
|
))
|
|
TESTS.append(Test(
|
|
f"wide_write_a{aw}r{rw}w{ww}b{bw}",
|
|
WIDE_RW.format(aw=aw, rw=rw, ww=ww, bw=bw),
|
|
["wide_write"], [],
|
|
{"RAM_WIDE_WRITE": cntww}
|
|
))
|
|
|
|
# Multiple read ports
|
|
# 1rw port plus 3 (or 7) r ports
|
|
QUAD_PORT = """
|
|
module top(clk, rwa, r0a, r1a, r2a, rd, r0d, r1d, r2d, wd, we);
|
|
|
|
localparam ABITS = {abits};
|
|
localparam DBITS = {dbits};
|
|
|
|
input wire clk;
|
|
input wire we;
|
|
input wire [ABITS-1:0] rwa;
|
|
input wire [ABITS-1:0] r0a;
|
|
input wire [ABITS-1:0] r1a;
|
|
input wire [ABITS-1:0] r2a;
|
|
input wire [DBITS-1:0] wd;
|
|
output wire [DBITS-1:0] rd;
|
|
output wire [DBITS-1:0] r0d;
|
|
output wire [DBITS-1:0] r1d;
|
|
output wire [DBITS-1:0] r2d;
|
|
|
|
reg [DBITS-1:0] mem [0:2**ABITS-1];
|
|
|
|
always @(posedge clk)
|
|
if (we)
|
|
mem[rwa] <= wd;
|
|
|
|
assign rd = mem[rwa];
|
|
assign r0d = mem[r0a];
|
|
assign r1d = mem[r1a];
|
|
assign r2d = mem[r2a];
|
|
|
|
endmodule
|
|
"""
|
|
|
|
for (abits, dbits, cnt) in [
|
|
(2, 2, 1),
|
|
(4, 2, 1),
|
|
(5, 2, 2),
|
|
(4, 4, 2),
|
|
(6, 2, 4),
|
|
(4, 8, 4),
|
|
]:
|
|
TESTS.append(Test(
|
|
f"quad_port_a{abits}d{dbits}",
|
|
QUAD_PORT.format(abits=abits, dbits=dbits),
|
|
["multilut"], ["PORTS_QUAD"],
|
|
{"LUT_MULTI": cnt}
|
|
))
|
|
|
|
# Wide asynchronous read port
|
|
WIDE_READ = """
|
|
module top(clk, we, rwa, wd, rd);
|
|
|
|
localparam ABITS = {abits};
|
|
localparam WBITS = {wbits};
|
|
localparam RWORDS = {rwords};
|
|
|
|
input wire clk;
|
|
input wire we;
|
|
input wire [ABITS-1:0] rwa;
|
|
input wire [WBITS-1:0] wd;
|
|
output wire [(WBITS*RWORDS)-1:0] rd;
|
|
|
|
reg [WBITS-1:0] mem [0:2**ABITS-1];
|
|
|
|
always @(posedge clk)
|
|
if (we)
|
|
mem[rwa] <= wd;
|
|
|
|
genvar i;
|
|
generate
|
|
for (i = 0; i < RWORDS; i = i + 1)
|
|
assign rd[i*WBITS+:WBITS] = mem[rwa + i];
|
|
endgenerate
|
|
|
|
endmodule
|
|
"""
|
|
|
|
for (abits, wbits, rwords, cntquad, cntoct) in [
|
|
(4, 2, 1, 1, 1),
|
|
(4, 2, 2, 1, 1),
|
|
(4, 2, 3, 1, 1),
|
|
(4, 2, 4, 1, 1),
|
|
(4, 2, 5, 2, 1),
|
|
(4, 2, 6, 2, 1),
|
|
(4, 2, 7, 2, 1), # Write port needs to be duplicated, so only 3 extra read
|
|
(4, 2, 8, 3, 1), # ports per quad port LUT (i.e. 7 ports in 2, 8 ports in 3)
|
|
(4, 2, 9, 3, 2),
|
|
(4, 4, 1, 2, 2),
|
|
(4, 4, 4, 2, 2),
|
|
(4, 4, 6, 4, 2),
|
|
(4, 4, 9, 6, 4),
|
|
(5, 2, 1, 2, 2),
|
|
(5, 2, 4, 2, 2),
|
|
(5, 2, 9, 6, 4),
|
|
]:
|
|
TESTS.append(Test(
|
|
f"wide_quad_a{abits}w{wbits}r{rwords}",
|
|
WIDE_READ.format(abits=abits, wbits=wbits, rwords=rwords),
|
|
["multilut"], ["PORTS_QUAD"],
|
|
{"LUT_MULTI": cntquad}
|
|
))
|
|
TESTS.append(Test(
|
|
f"wide_oct_a{abits}w{wbits}r{rwords}",
|
|
WIDE_READ.format(abits=abits, wbits=wbits, rwords=rwords),
|
|
["multilut"], ["PORTS_OCT"],
|
|
{"LUT_MULTI": cntoct}
|
|
))
|
|
|
|
# signal priorities & pattern testing
|
|
PRIORITY = """
|
|
module top(clk, clken, wren, wben, rden, rst, addr, wdata, rdata);
|
|
|
|
localparam ABITS = {abits};
|
|
localparam WBITS = {wbits};
|
|
localparam WORDS = {words};
|
|
|
|
localparam BITS = WBITS * WORDS;
|
|
|
|
input wire clk, clken;
|
|
input wire wren, rden, rst;
|
|
input wire [WORDS-1:0] wben;
|
|
input wire [ABITS-1:0] addr;
|
|
input wire [BITS-1:0] wdata;
|
|
output reg [BITS-1:0] rdata;
|
|
|
|
reg [BITS-1:0] mem [0:2**ABITS-1];
|
|
|
|
integer i;
|
|
always @(posedge clk) begin
|
|
{code}
|
|
end
|
|
endmodule
|
|
"""
|
|
#reset_gate in ["ungated", "rst", "rden && rst"]
|
|
#clk_en in [True, False]
|
|
#rdwr in ["nc", "old", "new", "undef", "newdef"]
|
|
|
|
for (testname, reset_gate, rdwr, clk_en, add_logic) in [
|
|
("no_reset", "", "old", False, 0),
|
|
("gclken", "rst", "old", False, 0),
|
|
("ungated", "ungated", "old", False, 1), # muxes wren with rst
|
|
("gclken_ce", "rst", "old", True, 3), # AND to simulate CLK_EN
|
|
("grden", "rden && rst", "old", False, 1), # selects _clken, simulates _rden
|
|
("grden_ce", "rden && rst", "old", True, 4), # both of the above
|
|
("exclwr", "", "nc", False, 2), # selects new_only and simulates
|
|
("excl_rst", "rst", "nc", False, 3), # as above, extra gate for rst
|
|
("transwr", "", "new", False, 0),
|
|
("trans_rst", "rst", "new", False, 0),
|
|
]:
|
|
write = "if (wren) \n\t\tmem[addr] <= wdata;"
|
|
|
|
if rdwr == "new":
|
|
read = """if (rden)
|
|
if (wren)
|
|
rdata <= wdata;
|
|
else
|
|
rdata <= mem[addr];"""
|
|
else:
|
|
read = "if (rden) \n\t\trdata <= mem[addr];"
|
|
|
|
if "rst" in reset_gate:
|
|
read = f"if ({reset_gate})\n\t\trdata <= 0; \n\telse {read}"
|
|
|
|
if reset_gate == "ungated":
|
|
outer = "if (rst)\n\trdata <= 0;\nelse "
|
|
else:
|
|
outer = ""
|
|
|
|
if clk_en:
|
|
outer = f"{outer}if (clken) "
|
|
|
|
code = f"""{outer}begin
|
|
{write}
|
|
{"else " if rdwr == "nc" else ""}{read}
|
|
end"""
|
|
|
|
TESTS.append(Test(
|
|
testname, PRIORITY.format(code=code, abits=4, wbits=8, words=2),
|
|
["block_sp_full"], ["USE_SRST"],
|
|
{"RAM_BLOCK_SP": 1, "$*": add_logic}
|
|
))
|
|
|
|
for (testname, reset_gate, defs, rdwr, add_logic) in [
|
|
("wr_byte", "", ["USE_SRST_BLOCKING"], "old", 0),
|
|
("trans_byte", "", ["USE_SRST_BLOCKING"], "new", 0),
|
|
("wr_rst_byte", "rst", ["USE_SRST"], "old", 2), # expected mux to emulate blocking
|
|
("rst_wr_byte", "rst", ["USE_SRST_BLOCKING"], "old", 2), # should use hardware blocking, doesn't
|
|
("rdenrst_wr_byte", "rden && rst", ["USE_SRST"], "old", 3),
|
|
]:
|
|
wordsloop = "for (i=0; i<WORDS; i=i+1)"
|
|
if rdwr == "old":
|
|
read_write = f"""if (rden)
|
|
rdata = mem[addr];
|
|
{wordsloop}
|
|
if (wben[i])
|
|
mem[addr][i] <= wdata[i];"""
|
|
else:
|
|
read_write = f"""{wordsloop}
|
|
if (wben[i]) begin
|
|
mem[addr][i] <= wdata[i];
|
|
rdata[i] <= wdata[i];
|
|
end else
|
|
rdata[i] <= mem[addr][i];"""
|
|
|
|
if "rst" in reset_gate:
|
|
reset_rw = f"""if ({reset_gate})
|
|
rdata <= 0;
|
|
else begin
|
|
{read_write}
|
|
end"""
|
|
else:
|
|
reset_rw = read_write
|
|
|
|
if reset_gate == "ungated":
|
|
outer = "if (rst)\n\trdata <= 0;\nelse "
|
|
else:
|
|
outer = ""
|
|
|
|
code = f"{outer}\n{reset_rw}"
|
|
|
|
TESTS.append(Test(
|
|
testname, PRIORITY.format(code=code, abits=4, wbits=1, words=2),
|
|
["block_sp_full"], defs,
|
|
{"RAM_BLOCK_SP": 1, "$*": add_logic}
|
|
))
|
|
|
|
with open("run-test.mk", "w") as mf:
|
|
mf.write("ifneq ($(strip $(SEED)),)\n")
|
|
mf.write("SEEDOPT=-S$(SEED)\n")
|
|
mf.write("endif\n")
|
|
mf.write("all:")
|
|
for t in TESTS:
|
|
mf.write(" " + t.name)
|
|
mf.write("\n")
|
|
mf.write(".PHONY: all\n")
|
|
|
|
|
|
for t in TESTS:
|
|
with open("t_{}.v".format(t.name), "w") as tf:
|
|
tf.write(t.src)
|
|
with open("t_{}.ys".format(t.name), "w") as sf:
|
|
sf.write("proc\n")
|
|
sf.write("opt\n")
|
|
sf.write("opt -full\n")
|
|
sf.write("memory -nomap\n")
|
|
sf.write("dump\n")
|
|
sf.write("memory_libmap")
|
|
for lib in t.libs:
|
|
sf.write(" -lib ../memlib_{}.txt".format(lib))
|
|
for d in t.defs:
|
|
sf.write(" -D {}".format(d))
|
|
sf.write("\n")
|
|
sf.write("memory_map\n")
|
|
for k, v in t.cells.items():
|
|
if isinstance(v, tuple):
|
|
(cc, ca) = v
|
|
sf.write("select -assert-count {} t:{}\n".format(cc, k))
|
|
for kk, vv in ca.items():
|
|
sf.write("select -assert-count {} t:{} r:{}={} %i\n".format(cc, k, kk, vv))
|
|
else:
|
|
sf.write("select -assert-count {} t:{}\n".format(v, k))
|
|
mf.write("{}:\n".format(t.name))
|
|
mf.write("\t@../tools/autotest.sh -G -j $(SEEDOPT) $(EXTRA_FLAGS) -p 'script ../t_{}.ys'".format(t.name))
|
|
for lib in t.libs:
|
|
mf.write(" -l memlib_{}.v".format(lib))
|
|
mf.write(" t_{}.v || (cat t_{}.err; exit 1)\n".format(t.name, t.name))
|
|
mf.write(".PHONY: {}\n".format(t.name))
|