blob: 2018741a689552abdee3110f217439f2b0f6df5e [file] [log] [blame]
module openram_testchip(
`ifdef USE_POWER_PINS
inout vdda1, // User area 1 3.3V supply
inout vdda2, // User area 2 3.3V supply
inout vssa1, // User area 1 analog ground
inout vssa2, // User area 2 analog ground
inout vccd1, // User area 1 1.8V supply
inout vccd2, // User area 2 1.8v supply
inout vssd1, // User area 1 digital ground
inout vssd2, // User area 2 digital ground
`endif
input la_clk,
input gpio_clk,
input la_sram_clk,
input gpio_sram_clk,
input reset,
input la_in_load,
input gpio_in_scan,
input la_sram_load,
input gpio_sram_load,
input gpio_out_scan,
input [111:0] la_bits,
input gpio_bit,
input in_select,
input [63:0] sram0_rw_in,
input [63:0] sram0_ro_in,
input [63:0] sram1_rw_in,
input [63:0] sram1_ro_in,
input [63:0] sram2_rw_in,
input [63:0] sram3_rw_in,
input [63:0] sram4_rw_in,
//input [63:0] sram5_rw_in,
output reg [54:0] sram0_connections,
output reg [54:0] sram1_connections,
output reg [47:0] sram2_connections,
output reg [45:0] sram3_connections,
output reg [46:0] sram4_connections,
//output reg [82:0] sram5_connections,
output reg [63:0] la_data0,
output reg [63:0] la_data1,
output reg gpio_data0,
output reg gpio_data1
);
reg clk;
reg sram_clk;
// Store input instruction
reg [111:0] sram_register;
// Hold dout from SRAM
// clocked by SRAM clk
reg [63:0] sram0_rw_data;
reg [63:0] sram0_ro_data;
reg [63:0] sram1_rw_data;
reg [63:0] sram1_ro_data;
reg [63:0] sram2_data;
reg [63:0] sram3_data;
reg [63:0] sram4_data;
//reg [63:0] sram5_data;
// Mux output to connect final output data
// into sram_register
reg [63:0] read_data0;
reg [63:0] read_data1;
// SRAM input connections
reg [3:0] chip_select;
reg [15:0] addr0;
reg [31:0] din0;
reg csb0;
reg web0;
reg [3:0] wmask0;
reg [15:0] addr1;
reg [31:0] din1;
reg csb1;
reg web1;
reg [3:0] wmask1;
//Selecting clock pin
always @(*) begin
clk = in_select ? gpio_clk : la_clk;
sram_clk = in_select ? gpio_clk : la_clk;
end
always @ (posedge clk) begin
if(reset) begin
sram_register <= 112'd0;
end
//GPIO scanning for input transfer
else if(gpio_in_scan) begin
sram_register <= {sram_register[110:0], gpio_bit};
end
else if(la_in_load) begin
sram_register <= la_bits;
end
else if(gpio_sram_load || la_sram_load) begin
sram_register <= {sram_register[bits above DIN0], DOUT0, sram_register[bits between DIN0 and DIN1], DOUT1, sram_register[bits below din1}
end
//GPIO scanning for output transfer
else if(gpio_out_scan) begin
sram_register <= sram_register >> 1;
end
end
// Splitting register bits into fields
always @(sram_register) begin
chip_select = sram_register[111:108];
addr0 = sram_register[107:92];
din0 = sram_register[91:60];
csb0 = sram_register[59];
web0 = sram_register[58];
wmask0 = sram_register[57:54];
addr1 = sram_register[53:38];
din1 = sram_register[37:6];
csb1 = sram_register[5];
web1 = sram_register[4];
wmask1 = sram_register[3:0];
end
always @ (*) begin
sram0_connections = (chip_select == 0) ? {csb0, web0, wmask0, addr0[7:0], din0, csb1, addr1} : {55{1'b0}}; //32x256 Dual Port
sram1_connections = (chip_select == 1) ? {csb0, web0, wmask0, addr0[7:0], din0, csb1, addr1} : {55{1'b0}}; //32x256 Dual Port
sram2_connections = (chip_select == 2) ? {csb0, web0, wmask0, addr0[9:0], din0} : {48{1'b0}}; //32x1024 Single Port
sram3_connections = (chip_select == 3) ? {csb0, web0, wmask0, addr0[7:0], din0} : {46{1'b0}}; //32x256 Single Port
sram4_connections = (chip_select == 4) ? {csb0, web0, wmask0, addr0[8:0], din0} : {47{1'b0}}; //32x512 Single Port
//sram5_connections = (chip_select == 5) ? {csb0, web0, wmask0, addr0, din0} : {83{1'b0}};
end
// Store dout of each SRAM
always @ (posedge sram_clk) begin
if(reset) begin
sram0_rw_data <= 32'd0;
sram0_ro_data <= 32'd0;
sram1_rw_data <= 32'd0;
sram1_ro_data <= 32'd0;
sram2_data <= 32'd0;
sram3_data <= 32'd0;
sram4_data <= 32'd0;
//sram5_data <= 32'd0;
end
else begin
sram0_rw_data <= sram0_rw_in;
sram0_ro_data <= sram0_ro_in;
sram1_rw_data <= sram1_rw_in;
sram1_ro_data <= sram1_ro_in;
sram2_data <= sram2_rw_in;
sram3_data <= sram3_rw_in;
sram4_data <= sram4_rw_in;
//sram5_data <= sram5_rw_in;
end
end
// Mux value of correct SRAM dout FF to feed into
// DFF clocked by la/gpio clk
always @ (*) begin
case(chip_select)
3'd0: begin
read_data0 = sram0_rw_data;
read_data1 = sram0_ro_data;
end
3'd1: begin
read_data0 = sram1_rw_data;
read_data1 = sram1_ro_data;
end
3'd2: read_data0 = sram2_data;
3'd3: read_data0 = sram3_data;
3'd4: read_data0 = sram4_data;
//3'd5: assign read_data0 = sram5_data;
default: begin
read_data0 = 64'd0;
read_data1 = 64'd0;
end
endcase
end
// Output transfer
always @ (*) begin
if(in_select) begin
gpio_data0 = sram_register[???];
gpio_data1 = sram_register[???];
end
else begin
la_data0 = sram_data0;
la_data1 = sram_data1;
end
end
endmodule