yosys/tests/arch/common/blockram.v

`default_nettype none
module sync_ram_sp #(parameter DATA_WIDTH=8, ADDRESS_WIDTH=10)
   (input  wire                      write_enable, clk,
    input  wire  [DATA_WIDTH-1:0]    data_in,
    input  wire  [ADDRESS_WIDTH-1:0] address_in,
    output wire  [DATA_WIDTH-1:0]    data_out);

  localparam WORD  = (DATA_WIDTH-1);
  localparam DEPTH = (2**ADDRESS_WIDTH-1);

  reg [WORD:0] data_out_r;
  reg [WORD:0] memory [0:DEPTH];

  always @(posedge clk) begin
    if (write_enable)
      memory[address_in] <= data_in;
    data_out_r <= memory[address_in];
  end

  assign data_out = data_out_r;

endmodule // sync_ram_sp


module sync_ram_sdp #(parameter DATA_WIDTH=8, ADDRESS_WIDTH=10)
   (input  wire                      clk, write_enable,
    input  wire  [DATA_WIDTH-1:0]    data_in,
    input  wire  [ADDRESS_WIDTH-1:0] address_in_r, address_in_w,
    output wire  [DATA_WIDTH-1:0]    data_out);

  localparam WORD  = (DATA_WIDTH-1);
  localparam DEPTH = (2**ADDRESS_WIDTH-1);

  reg [WORD:0] data_out_r;
  reg [WORD:0] memory [0:DEPTH];

  always @(posedge clk) begin
    if (write_enable)
      memory[address_in_w] <= data_in;
    data_out_r <= memory[address_in_r];
  end

  assign data_out = data_out_r;

endmodule // sync_ram_sdp


module sync_ram_sdp_wwr #(parameter DATA_WIDTH=8, ADDRESS_WIDTH=10) // wd=16, wa=9
   (input  wire                          clk, write_enable,
    input  wire  [(DATA_WIDTH*2)-1:0]    data_in,
    input  wire  [ADDRESS_WIDTH-2:0]     address_in_w,
    input  wire  [ADDRESS_WIDTH-1:0]     address_in_r,
    output wire  [DATA_WIDTH-1:0]        data_out);

  localparam WORD  = ((DATA_WIDTH*2)-1);
  localparam DEPTH = (2**(ADDRESS_WIDTH-1)-1);

  reg [WORD:0] data_out_r;
  reg [WORD:0] memory [0:DEPTH];

  always @(posedge clk) begin
    if (write_enable) begin
      memory[address_in_w] <= data_in;
    end
    data_out_r <= memory[address_in_r>>1];
  end

  assign data_out = address_in_r[0] ? data_out_r[WORD:DATA_WIDTH] : data_out_r[DATA_WIDTH-1:0];

endmodule // sync_ram_sdp_wwr


module sync_ram_sdp_wrr #(parameter DATA_WIDTH=8, ADDRESS_WIDTH=10) // rd=16, ra=9
(
		input  wire                         clk_w, clk_r, write_enable,
		input  wire  [DATA_WIDTH-1:0]       data_in,
		input  wire  [ADDRESS_WIDTH-1:0]    address_in_w,
		input  wire  [ADDRESS_WIDTH_R-1:0]  address_in_r,
		output wire  [WORD-1:0]   data_out
);
	localparam ADDRESS_WIDTH_R = ADDRESS_WIDTH-1;
	localparam HWORD = DATA_WIDTH;
	localparam WORD  = 2*DATA_WIDTH;
	localparam DEPTH = 2**ADDRESS_WIDTH_R;

	reg [WORD-1:0] data_out_r;
	reg [WORD-1:0] memory [0:DEPTH-1];

	always @(posedge clk_w) begin
	if (write_enable)
		if (address_in_w[0]) // upper HWORD
			memory[address_in_w>>1][WORD-1:HWORD] <= data_in;
		else // lower HWORD
			memory[address_in_w>>1][HWORD-1:0] <= data_in;
	end

	always @(posedge clk_r) begin
	data_out_r <= memory[address_in_r];
	end

	assign data_out = data_out_r;

endmodule // sync_ram_sdp_wrr


module double_sync_ram_sdp #(parameter DATA_WIDTH_A=8, ADDRESS_WIDTH_A=10, DATA_WIDTH_B=8, ADDRESS_WIDTH_B=10)
(
    input  wire                        write_enable_a, clk_a,
    input  wire  [DATA_WIDTH_A-1:0]    data_in_a,
    input  wire  [ADDRESS_WIDTH_A-1:0] address_in_r_a, address_in_w_a,
    output wire  [DATA_WIDTH_A-1:0]    data_out_a,

    input  wire                        write_enable_b, clk_b,
    input  wire  [DATA_WIDTH_B-1:0]    data_in_b,
    input  wire  [ADDRESS_WIDTH_B-1:0] address_in_r_b, address_in_w_b,
    output wire  [DATA_WIDTH_B-1:0]    data_out_b
);

    sync_ram_sdp #(
        .DATA_WIDTH(DATA_WIDTH_A),
        .ADDRESS_WIDTH(ADDRESS_WIDTH_A)
    ) a_ram (
    .write_enable(write_enable_a),
    .clk(clk_a),
    .data_in(data_in_a),
    .address_in_r(address_in_r_a),
    .address_in_w(address_in_w_a),
    .data_out(data_out_a)
    );

    sync_ram_sdp #(
        .DATA_WIDTH(DATA_WIDTH_B),
        .ADDRESS_WIDTH(ADDRESS_WIDTH_B)
    ) b_ram (
    .write_enable(write_enable_b),
    .clk(clk_b),
    .data_in(data_in_b),
    .address_in_r(address_in_r_b),
    .address_in_w(address_in_w_b),
    .data_out(data_out_b)
    );

endmodule // double_sync_ram_sdp


module sync_ram_tdp #(parameter DATA_WIDTH=8, ADDRESS_WIDTH=10)
   (input  wire                      clk_a, clk_b, 
    input  wire                      write_enable_a, write_enable_b,
    input  wire                      read_enable_a, read_enable_b,
    input  wire  [DATA_WIDTH-1:0]    write_data_a, write_data_b,
    input  wire  [ADDRESS_WIDTH-1:0] addr_a, addr_b,
    output reg   [DATA_WIDTH-1:0]    read_data_a, read_data_b);

  localparam WORD  = (DATA_WIDTH-1);
  localparam DEPTH = (2**ADDRESS_WIDTH-1);

  reg [WORD:0] mem [0:DEPTH];

  always @(posedge clk_a) begin
    if (write_enable_a)
      mem[addr_a] <= write_data_a;
    else
      read_data_a <= mem[addr_a];
  end

  always @(posedge clk_b) begin
    if (write_enable_b)
      mem[addr_b] <= write_data_b;
    else
      read_data_b <= mem[addr_b];
  end

endmodule // sync_ram_tdp
Updating RAMB36E1 thresholds. Adding test for both RAMB18E1/RAMB36E1 2019-12-12 13:50:36 -06:00			`default_nettype none
			`module sync_ram_sp #(parameter DATA_WIDTH=8, ADDRESS_WIDTH=10)`
			`(input wire write_enable, clk,`
			`input wire [DATA_WIDTH-1:0] data_in,`
			`input wire [ADDRESS_WIDTH-1:0] address_in,`
			`output wire [DATA_WIDTH-1:0] data_out);`

ice40: add support for both 1364.1 and LSE RAM/ROM attributes. This commit tries to carefully follow the documented behavior of LSE and Synplify. It will use `syn_ramstyle` attribute if there are any write ports, and `syn_romstyle` attribute otherwise. * LSE supports both `syn_ramstyle` and `syn_romstyle`. * Synplify only supports `syn_ramstyle`, with same values as LSE. * Synplify also supports `syn_rw_conflict_logic`, which is not documented as supported for LSE. Limitations of the Yosys implementation: * LSE/Synplify appear to interpret attribute values insensitive to case. There is currently no way to do this in Yosys (attrmap can only change case of attribute names). * LSE/Synplify support `syn_ramstyle="block_ram,no_rw_check"` syntax to turn off insertion of transparency logic. There is currently no way to support multiple valued attributes in memory_bram. It is also not clear if that is a good idea, since it can cause sim/synth mismatches. * LSE/Synplify/1364.1 support block ROM inference from full case statements. Yosys does not currently perform this transformation. * LSE/Synplify propagate `syn_ramstyle`/`syn_romstyle` attributes from the module to the inner memories. There is currently no way to do this in Yosys (attrmvcp only works on cells and wires). 2020-01-01 00:18:53 -06:00			`localparam WORD = (DATA_WIDTH-1);`
			`localparam DEPTH = (2**ADDRESS_WIDTH-1);`
Updating RAMB36E1 thresholds. Adding test for both RAMB18E1/RAMB36E1 2019-12-12 13:50:36 -06:00
ice40: add support for both 1364.1 and LSE RAM/ROM attributes. This commit tries to carefully follow the documented behavior of LSE and Synplify. It will use `syn_ramstyle` attribute if there are any write ports, and `syn_romstyle` attribute otherwise. * LSE supports both `syn_ramstyle` and `syn_romstyle`. * Synplify only supports `syn_ramstyle`, with same values as LSE. * Synplify also supports `syn_rw_conflict_logic`, which is not documented as supported for LSE. Limitations of the Yosys implementation: * LSE/Synplify appear to interpret attribute values insensitive to case. There is currently no way to do this in Yosys (attrmap can only change case of attribute names). * LSE/Synplify support `syn_ramstyle="block_ram,no_rw_check"` syntax to turn off insertion of transparency logic. There is currently no way to support multiple valued attributes in memory_bram. It is also not clear if that is a good idea, since it can cause sim/synth mismatches. * LSE/Synplify/1364.1 support block ROM inference from full case statements. Yosys does not currently perform this transformation. * LSE/Synplify propagate `syn_ramstyle`/`syn_romstyle` attributes from the module to the inner memories. There is currently no way to do this in Yosys (attrmvcp only works on cells and wires). 2020-01-01 00:18:53 -06:00			`reg [WORD:0] data_out_r;`
			`reg [WORD:0] memory [0:DEPTH];`
Updating RAMB36E1 thresholds. Adding test for both RAMB18E1/RAMB36E1 2019-12-12 13:50:36 -06:00
ice40: add support for both 1364.1 and LSE RAM/ROM attributes. This commit tries to carefully follow the documented behavior of LSE and Synplify. It will use `syn_ramstyle` attribute if there are any write ports, and `syn_romstyle` attribute otherwise. * LSE supports both `syn_ramstyle` and `syn_romstyle`. * Synplify only supports `syn_ramstyle`, with same values as LSE. * Synplify also supports `syn_rw_conflict_logic`, which is not documented as supported for LSE. Limitations of the Yosys implementation: * LSE/Synplify appear to interpret attribute values insensitive to case. There is currently no way to do this in Yosys (attrmap can only change case of attribute names). * LSE/Synplify support `syn_ramstyle="block_ram,no_rw_check"` syntax to turn off insertion of transparency logic. There is currently no way to support multiple valued attributes in memory_bram. It is also not clear if that is a good idea, since it can cause sim/synth mismatches. * LSE/Synplify/1364.1 support block ROM inference from full case statements. Yosys does not currently perform this transformation. * LSE/Synplify propagate `syn_ramstyle`/`syn_romstyle` attributes from the module to the inner memories. There is currently no way to do this in Yosys (attrmvcp only works on cells and wires). 2020-01-01 00:18:53 -06:00			`always @(posedge clk) begin`
			`if (write_enable)`
			`memory[address_in] <= data_in;`
			`data_out_r <= memory[address_in];`
			`end`

			`assign data_out = data_out_r;`
Updating RAMB36E1 thresholds. Adding test for both RAMB18E1/RAMB36E1 2019-12-12 13:50:36 -06:00
			`endmodule // sync_ram_sp`


			`module sync_ram_sdp #(parameter DATA_WIDTH=8, ADDRESS_WIDTH=10)`
			`(input wire clk, write_enable,`
			`input wire [DATA_WIDTH-1:0] data_in,`
			`input wire [ADDRESS_WIDTH-1:0] address_in_r, address_in_w,`
			`output wire [DATA_WIDTH-1:0] data_out);`

ice40: add support for both 1364.1 and LSE RAM/ROM attributes. This commit tries to carefully follow the documented behavior of LSE and Synplify. It will use `syn_ramstyle` attribute if there are any write ports, and `syn_romstyle` attribute otherwise. * LSE supports both `syn_ramstyle` and `syn_romstyle`. * Synplify only supports `syn_ramstyle`, with same values as LSE. * Synplify also supports `syn_rw_conflict_logic`, which is not documented as supported for LSE. Limitations of the Yosys implementation: * LSE/Synplify appear to interpret attribute values insensitive to case. There is currently no way to do this in Yosys (attrmap can only change case of attribute names). * LSE/Synplify support `syn_ramstyle="block_ram,no_rw_check"` syntax to turn off insertion of transparency logic. There is currently no way to support multiple valued attributes in memory_bram. It is also not clear if that is a good idea, since it can cause sim/synth mismatches. * LSE/Synplify/1364.1 support block ROM inference from full case statements. Yosys does not currently perform this transformation. * LSE/Synplify propagate `syn_ramstyle`/`syn_romstyle` attributes from the module to the inner memories. There is currently no way to do this in Yosys (attrmvcp only works on cells and wires). 2020-01-01 00:18:53 -06:00			`localparam WORD = (DATA_WIDTH-1);`
			`localparam DEPTH = (2**ADDRESS_WIDTH-1);`

			`reg [WORD:0] data_out_r;`
			`reg [WORD:0] memory [0:DEPTH];`
Updating RAMB36E1 thresholds. Adding test for both RAMB18E1/RAMB36E1 2019-12-12 13:50:36 -06:00
ice40: add support for both 1364.1 and LSE RAM/ROM attributes. This commit tries to carefully follow the documented behavior of LSE and Synplify. It will use `syn_ramstyle` attribute if there are any write ports, and `syn_romstyle` attribute otherwise. * LSE supports both `syn_ramstyle` and `syn_romstyle`. * Synplify only supports `syn_ramstyle`, with same values as LSE. * Synplify also supports `syn_rw_conflict_logic`, which is not documented as supported for LSE. Limitations of the Yosys implementation: * LSE/Synplify appear to interpret attribute values insensitive to case. There is currently no way to do this in Yosys (attrmap can only change case of attribute names). * LSE/Synplify support `syn_ramstyle="block_ram,no_rw_check"` syntax to turn off insertion of transparency logic. There is currently no way to support multiple valued attributes in memory_bram. It is also not clear if that is a good idea, since it can cause sim/synth mismatches. * LSE/Synplify/1364.1 support block ROM inference from full case statements. Yosys does not currently perform this transformation. * LSE/Synplify propagate `syn_ramstyle`/`syn_romstyle` attributes from the module to the inner memories. There is currently no way to do this in Yosys (attrmvcp only works on cells and wires). 2020-01-01 00:18:53 -06:00			`always @(posedge clk) begin`
			`if (write_enable)`
			`memory[address_in_w] <= data_in;`
			`data_out_r <= memory[address_in_r];`
			`end`
Updating RAMB36E1 thresholds. Adding test for both RAMB18E1/RAMB36E1 2019-12-12 13:50:36 -06:00
ice40: add support for both 1364.1 and LSE RAM/ROM attributes. This commit tries to carefully follow the documented behavior of LSE and Synplify. It will use `syn_ramstyle` attribute if there are any write ports, and `syn_romstyle` attribute otherwise. * LSE supports both `syn_ramstyle` and `syn_romstyle`. * Synplify only supports `syn_ramstyle`, with same values as LSE. * Synplify also supports `syn_rw_conflict_logic`, which is not documented as supported for LSE. Limitations of the Yosys implementation: * LSE/Synplify appear to interpret attribute values insensitive to case. There is currently no way to do this in Yosys (attrmap can only change case of attribute names). * LSE/Synplify support `syn_ramstyle="block_ram,no_rw_check"` syntax to turn off insertion of transparency logic. There is currently no way to support multiple valued attributes in memory_bram. It is also not clear if that is a good idea, since it can cause sim/synth mismatches. * LSE/Synplify/1364.1 support block ROM inference from full case statements. Yosys does not currently perform this transformation. * LSE/Synplify propagate `syn_ramstyle`/`syn_romstyle` attributes from the module to the inner memories. There is currently no way to do this in Yosys (attrmvcp only works on cells and wires). 2020-01-01 00:18:53 -06:00			`assign data_out = data_out_r;`
Updating RAMB36E1 thresholds. Adding test for both RAMB18E1/RAMB36E1 2019-12-12 13:50:36 -06:00
			`endmodule // sync_ram_sdp`

Testing TDP synth mapping New common sync_ram_tdp. Used in ecp5 and gatemate mem*.ys. 2022-07-04 18:18:43 -05:00
quicklogic: Initial blockram tests Use python script to generate tests for both SDP and TDP across multiple sizes of RAM. Adds sync_ram_sdp_(wwr\|wrr) to common blockram.v for double width write and double width read respectively. 2023-11-28 21:48:20 -06:00			`module sync_ram_sdp_wwr #(parameter DATA_WIDTH=8, ADDRESS_WIDTH=10) // wd=16, wa=9`
			`(input wire clk, write_enable,`
			`input wire [(DATA_WIDTH*2)-1:0] data_in,`
			`input wire [ADDRESS_WIDTH-2:0] address_in_w,`
			`input wire [ADDRESS_WIDTH-1:0] address_in_r,`
			`output wire [DATA_WIDTH-1:0] data_out);`

			`localparam WORD = ((DATA_WIDTH*2)-1);`
			`localparam DEPTH = (2**(ADDRESS_WIDTH-1)-1);`

			`reg [WORD:0] data_out_r;`
			`reg [WORD:0] memory [0:DEPTH];`

			`always @(posedge clk) begin`
			`if (write_enable) begin`
			`memory[address_in_w] <= data_in;`
			`end`
			`data_out_r <= memory[address_in_r>>1];`
			`end`

			`assign data_out = address_in_r[0] ? data_out_r[WORD:DATA_WIDTH] : data_out_r[DATA_WIDTH-1:0];`

			`endmodule // sync_ram_sdp_wwr`


			`module sync_ram_sdp_wrr #(parameter DATA_WIDTH=8, ADDRESS_WIDTH=10) // rd=16, ra=9`
quicklogic: fix double width read 2023-11-29 14:16:12 -06:00			`(`
			`input wire clk_w, clk_r, write_enable,`
			`input wire [DATA_WIDTH-1:0] data_in,`
			`input wire [ADDRESS_WIDTH-1:0] address_in_w,`
			`input wire [ADDRESS_WIDTH_R-1:0] address_in_r,`
			`output wire [WORD-1:0] data_out`
			`);`
			`localparam ADDRESS_WIDTH_R = ADDRESS_WIDTH-1;`
			`localparam HWORD = DATA_WIDTH;`
			`localparam WORD = 2*DATA_WIDTH;`
			`localparam DEPTH = 2**ADDRESS_WIDTH_R;`

			`reg [WORD-1:0] data_out_r;`
			`reg [WORD-1:0] memory [0:DEPTH-1];`

			`always @(posedge clk_w) begin`
			`if (write_enable)`
			`if (address_in_w[0]) // upper HWORD`
			`memory[address_in_w>>1][WORD-1:HWORD] <= data_in;`
			`else // lower HWORD`
			`memory[address_in_w>>1][HWORD-1:0] <= data_in;`
			`end`

			`always @(posedge clk_r) begin`
			`data_out_r <= memory[address_in_r];`
			`end`

			`assign data_out = data_out_r;`
quicklogic: Initial blockram tests Use python script to generate tests for both SDP and TDP across multiple sizes of RAM. Adds sync_ram_sdp_(wwr\|wrr) to common blockram.v for double width write and double width read respectively. 2023-11-28 21:48:20 -06:00
			`endmodule // sync_ram_sdp_wrr`


quicklogic: Testing split TDP36K Adds `double_sync_ram_sdp` to `common/blockram.v`, providing a test for two disjoint memories. Refactor python blockram template to take a list of params to support the above. Also change the smaller single TDP36K tests to also test `port_a_width` value. 2023-11-28 22:34:22 -06:00			`module double_sync_ram_sdp #(parameter DATA_WIDTH_A=8, ADDRESS_WIDTH_A=10, DATA_WIDTH_B=8, ADDRESS_WIDTH_B=10)`
			`(`
			`input wire write_enable_a, clk_a,`
			`input wire [DATA_WIDTH_A-1:0] data_in_a,`
			`input wire [ADDRESS_WIDTH_A-1:0] address_in_r_a, address_in_w_a,`
			`output wire [DATA_WIDTH_A-1:0] data_out_a,`

			`input wire write_enable_b, clk_b,`
			`input wire [DATA_WIDTH_B-1:0] data_in_b,`
			`input wire [ADDRESS_WIDTH_B-1:0] address_in_r_b, address_in_w_b,`
			`output wire [DATA_WIDTH_B-1:0] data_out_b`
			`);`

			`sync_ram_sdp #(`
			`.DATA_WIDTH(DATA_WIDTH_A),`
			`.ADDRESS_WIDTH(ADDRESS_WIDTH_A)`
			`) a_ram (`
			`.write_enable(write_enable_a),`
			`.clk(clk_a),`
			`.data_in(data_in_a),`
			`.address_in_r(address_in_r_a),`
			`.address_in_w(address_in_w_a),`
			`.data_out(data_out_a)`
			`);`

			`sync_ram_sdp #(`
			`.DATA_WIDTH(DATA_WIDTH_B),`
			`.ADDRESS_WIDTH(ADDRESS_WIDTH_B)`
			`) b_ram (`
			`.write_enable(write_enable_b),`
			`.clk(clk_b),`
			`.data_in(data_in_b),`
			`.address_in_r(address_in_r_b),`
			`.address_in_w(address_in_w_b),`
			`.data_out(data_out_b)`
			`);`

			`endmodule // double_sync_ram_sdp`


Testing TDP synth mapping New common sync_ram_tdp. Used in ecp5 and gatemate mem*.ys. 2022-07-04 18:18:43 -05:00			`module sync_ram_tdp #(parameter DATA_WIDTH=8, ADDRESS_WIDTH=10)`
			`(input wire clk_a, clk_b,`
			`input wire write_enable_a, write_enable_b,`
			`input wire read_enable_a, read_enable_b,`
			`input wire [DATA_WIDTH-1:0] write_data_a, write_data_b,`
			`input wire [ADDRESS_WIDTH-1:0] addr_a, addr_b,`
			`output reg [DATA_WIDTH-1:0] read_data_a, read_data_b);`

			`localparam WORD = (DATA_WIDTH-1);`
			`localparam DEPTH = (2**ADDRESS_WIDTH-1);`

			`reg [WORD:0] mem [0:DEPTH];`

			`always @(posedge clk_a) begin`
			`if (write_enable_a)`
			`mem[addr_a] <= write_data_a;`
			`else`
			`read_data_a <= mem[addr_a];`
			`end`

			`always @(posedge clk_b) begin`
			`if (write_enable_b)`
			`mem[addr_b] <= write_data_b;`
			`else`
			`read_data_b <= mem[addr_b];`
			`end`

			`endmodule // sync_ram_tdp`