mirror of https://github.com/YosysHQ/yosys.git
quicklogic: testing 1:4 assymetric memory
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Krystine Sherwin
Martin Povišer
parent
7513bfcbfe
commit
1a843b2a86
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@ -45,57 +45,77 @@ module sync_ram_sdp #(parameter DATA_WIDTH=8, ADDRESS_WIDTH=10)
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endmodule // sync_ram_sdp
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module sync_ram_sdp_wwr #(parameter DATA_WIDTH=8, ADDRESS_WIDTH=10) // wd=16, wa=9
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(input wire clk, write_enable,
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input wire [(DATA_WIDTH*2)-1:0] data_in,
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input wire [ADDRESS_WIDTH-2:0] address_in_w,
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input wire [ADDRESS_WIDTH-1:0] address_in_r,
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output wire [DATA_WIDTH-1:0] data_out);
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localparam WORD = ((DATA_WIDTH*2)-1);
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localparam DEPTH = (2**(ADDRESS_WIDTH-1)-1);
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reg [WORD:0] data_out_r;
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reg [WORD:0] memory [0:DEPTH];
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always @(posedge clk) begin
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if (write_enable) begin
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memory[address_in_w] <= data_in;
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end
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data_out_r <= memory[address_in_r>>1];
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end
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assign data_out = address_in_r[0] ? data_out_r[WORD:DATA_WIDTH] : data_out_r[DATA_WIDTH-1:0];
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endmodule // sync_ram_sdp_wwr
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module sync_ram_sdp_wrr #(parameter DATA_WIDTH=8, ADDRESS_WIDTH=10) // rd=16, ra=9
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module sync_ram_sdp_wwr #(parameter DATA_WIDTH=8, ADDRESS_WIDTH=10, WRITE_SHIFT=1) // wd=16, wa=9
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(
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input wire clk_w, clk_r, write_enable,
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input wire [DATA_WIDTH-1:0] data_in,
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input wire [ADDRESS_WIDTH-1:0] address_in_w,
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input wire [ADDRESS_WIDTH_R-1:0] address_in_r,
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output wire [WORD-1:0] data_out
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input wire clk_w, clk_r, write_enable,
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input wire [WORD-1:0] data_in,
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input wire [ADDRESS_WIDTH_W-1:0] address_in_w,
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input wire [ADDRESS_WIDTH-1:0] address_in_r,
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output wire [DATA_WIDTH-1:0] data_out
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);
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localparam ADDRESS_WIDTH_R = ADDRESS_WIDTH-1;
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localparam HWORD = DATA_WIDTH;
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localparam WORD = 2*DATA_WIDTH;
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localparam DEPTH = 2**ADDRESS_WIDTH_R;
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localparam ADDRESS_WIDTH_W = ADDRESS_WIDTH-WRITE_SHIFT;
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localparam BYTE = DATA_WIDTH;
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localparam WORD = DATA_WIDTH<<WRITE_SHIFT;
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localparam DEPTH = 2**ADDRESS_WIDTH_W;
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localparam SUB_DEPTH = 2**WRITE_SHIFT;
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reg [WORD-1:0] data_out_r;
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reg [WORD-1:0] memory [0:DEPTH-1];
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always @(posedge clk_w) begin
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if (write_enable)
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if (address_in_w[0]) // upper HWORD
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memory[address_in_w>>1][WORD-1:HWORD] <= data_in;
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else // lower HWORD
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memory[address_in_w>>1][HWORD-1:0] <= data_in;
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if (write_enable)
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memory[address_in_w] <= data_in;
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end
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always @(posedge clk_r) begin
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data_out_r <= memory[address_in_r];
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data_out_r <= memory[address_in_r>>WRITE_SHIFT];
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end
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wire [WRITE_SHIFT-1:0] inner_address;
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assign inner_address = address_in_r[WRITE_SHIFT-1:0];
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genvar i;
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generate
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for (i=0; i<SUB_DEPTH; i=i+1)
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assign data_out = (inner_address == i) ? data_out_r[i*BYTE+:BYTE] : 0;
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endgenerate
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endmodule // sync_ram_sdp_wwr
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module sync_ram_sdp_wrr #(parameter DATA_WIDTH=8, ADDRESS_WIDTH=10, READ_SHIFT=1) // rd=16, ra=9
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(
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input wire clk_w, clk_r, write_enable,
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input wire [DATA_WIDTH-1:0] data_in,
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input wire [ADDRESS_WIDTH-1:0] address_in_w,
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input wire [ADDRESS_WIDTH_R-1:0] address_in_r,
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output wire [WORD-1:0] data_out
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);
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localparam ADDRESS_WIDTH_R = ADDRESS_WIDTH-READ_SHIFT;
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localparam BYTE = DATA_WIDTH;
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localparam WORD = BYTE<<READ_SHIFT;
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localparam DEPTH = 2**ADDRESS_WIDTH_R;
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localparam SUB_DEPTH = 2**READ_SHIFT;
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reg [WORD-1:0] data_out_r;
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reg [WORD-1:0] memory [0:DEPTH-1];
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integer i;
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wire [ADDRESS_WIDTH_R-1:0] outer_address;
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wire [READ_SHIFT-1:0] inner_address;
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assign outer_address = address_in_w>>READ_SHIFT;
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assign inner_address = address_in_w[READ_SHIFT-1:0];
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always @(posedge clk_w) begin
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if (write_enable)
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for (i=0; i<SUB_DEPTH; i = i+1)
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if (inner_address == i)
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memory[outer_address][i*BYTE+:BYTE] <= data_in;
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end
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always @(posedge clk_r) begin
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data_out_r <= memory[address_in_r];
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end
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assign data_out = data_out_r;
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@ -32,11 +32,47 @@ blockram_tests: "list[tuple[list[tuple[str, int]], str, list[str]]]" = [
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([("ADDRESS_WIDTH", 15), ("DATA_WIDTH", 1)], "sync_ram_*dp", ["-assert-count 1 t:TDP36K", "-assert-count 1 t:TDP36K a:port_a_width=1 %i"]),
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# 2x write width (1024x36bit write / 2048x18bit read = 1TDP36K)
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([("ADDRESS_WIDTH", 11), ("DATA_WIDTH", 18)], "sync_ram_sdp_wwr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 11), ("DATA_WIDTH", 9)], "sync_ram_sdp_wwr", ["-assert-count 1 t:TDP36K"]),
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# 2x read width (1024x36bit read / 2048x18bit write = 1TDP36K)
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([("ADDRESS_WIDTH", 11), ("DATA_WIDTH", 18)], "sync_ram_sdp_wrr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 12), ("DATA_WIDTH", 9)], "sync_ram_sdp_wrr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 11), ("DATA_WIDTH", 18), ("WRITE_SHIFT", 1)], "sync_ram_sdp_wwr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 11), ("DATA_WIDTH", 16), ("WRITE_SHIFT", 1)], "sync_ram_sdp_wwr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 12), ("DATA_WIDTH", 9), ("WRITE_SHIFT", 1)], "sync_ram_sdp_wwr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 12), ("DATA_WIDTH", 8), ("WRITE_SHIFT", 1)], "sync_ram_sdp_wwr", ["-assert-count 1 t:TDP36K"]),
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# same for read
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([("ADDRESS_WIDTH", 11), ("DATA_WIDTH", 18), ( "READ_SHIFT", 1)], "sync_ram_sdp_wrr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 11), ("DATA_WIDTH", 16), ( "READ_SHIFT", 1)], "sync_ram_sdp_wrr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 12), ("DATA_WIDTH", 9), ( "READ_SHIFT", 1)], "sync_ram_sdp_wrr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 12), ("DATA_WIDTH", 8), ( "READ_SHIFT", 1)], "sync_ram_sdp_wrr", ["-assert-count 1 t:TDP36K"]),
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# 4x write width (1024x36bit write / 4096x9bit read = 1TDP36K)
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([("ADDRESS_WIDTH", 11), ("DATA_WIDTH", 4), ("WRITE_SHIFT", 2)], "sync_ram_sdp_wwr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 12), ("DATA_WIDTH", 9), ("WRITE_SHIFT", 2)], "sync_ram_sdp_wwr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 12), ("DATA_WIDTH", 8), ("WRITE_SHIFT", 2)], "sync_ram_sdp_wwr", ["-assert-count 1 t:TDP36K"]),
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# and again for read
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([("ADDRESS_WIDTH", 11), ("DATA_WIDTH", 4), ( "READ_SHIFT", 2)], "sync_ram_sdp_wrr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 12), ("DATA_WIDTH", 9), ( "READ_SHIFT", 2)], "sync_ram_sdp_wrr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 12), ("DATA_WIDTH", 8), ( "READ_SHIFT", 2)], "sync_ram_sdp_wrr", ["-assert-count 1 t:TDP36K"]),
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# etc
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([("ADDRESS_WIDTH", 11), ("DATA_WIDTH", 16), ("WRITE_SHIFT", 1)], "sync_ram_sdp_wwr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 11), ("DATA_WIDTH", 16), ( "READ_SHIFT", 1)], "sync_ram_sdp_wrr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 12), ("DATA_WIDTH", 8), ("WRITE_SHIFT", 2)], "sync_ram_sdp_wwr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 12), ("DATA_WIDTH", 8), ( "READ_SHIFT", 2)], "sync_ram_sdp_wrr", ["-assert-count 1 t:TDP36K"]),
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# can also use an extra TDP36K for higher width
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([("ADDRESS_WIDTH", 10), ("DATA_WIDTH", 36), ("WRITE_SHIFT", 1)], "sync_ram_sdp_wwr", ["-assert-count 2 t:TDP36K"]),
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([("ADDRESS_WIDTH", 10), ("DATA_WIDTH", 36), ( "READ_SHIFT", 1)], "sync_ram_sdp_wrr", ["-assert-count 2 t:TDP36K"]),
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# not sure why these are different but apparently wide writes pack better?
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([("ADDRESS_WIDTH", 10), ("DATA_WIDTH", 36), ("WRITE_SHIFT", 2)], "sync_ram_sdp_wwr", ["-assert-count 2 t:TDP36K"]),
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([("ADDRESS_WIDTH", 10), ("DATA_WIDTH", 36), ( "READ_SHIFT", 2)], "sync_ram_sdp_wrr", ["-assert-count 4 t:TDP36K"]),
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([("ADDRESS_WIDTH", 9), ("DATA_WIDTH", 36), ("WRITE_SHIFT", 2)], "sync_ram_sdp_wwr", ["-assert-count 2 t:TDP36K"]),
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([("ADDRESS_WIDTH", 9), ("DATA_WIDTH", 36), ( "READ_SHIFT", 2)], "sync_ram_sdp_wrr", ["-assert-count 4 t:TDP36K"]),
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# SHIFT=0 should be identical to sync_ram_sdp
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([("ADDRESS_WIDTH", 10), ("DATA_WIDTH", 36), ( "READ_SHIFT", 0)], "sync_ram_sdp_wrr", ["-assert-count 1 t:TDP36K"]),
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([("ADDRESS_WIDTH", 11), ("DATA_WIDTH", 18), ( "READ_SHIFT", 0)], "sync_ram_sdp_wrr", ["-assert-count 1 t:TDP36K"]),
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# but WRITE_SHIFT=0 doesn't generate any read circuitry and optimises the memory away
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# ([("ADDRESS_WIDTH", 10), ("DATA_WIDTH", 36), ("WRITE_SHIFT", 0)], "sync_ram_sdp_wwr", ["-assert-count 1 t:TDP36K"]),
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# ([("ADDRESS_WIDTH", 11), ("DATA_WIDTH", 18), ("WRITE_SHIFT", 0)], "sync_ram_sdp_wwr", ["-assert-count 1 t:TDP36K"]),
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# two disjoint 18K memories can share a single TDP36K
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([("ADDRESS_WIDTH_A", 10), ("DATA_WIDTH_A", 18),
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