Syrostan-MCU-C/FPGA/top.v

197 lines
4.7 KiB
Coq
Raw Normal View History

module top (
2022-01-15 15:54:47 +08:00
input CLK_25M,
input KEY,
output LED,
2022-01-15 15:54:47 +08:00
input FSMC_NL,
input FSMC_NOE,
input FSMC_NWE,
input FSMC_NE1,
input [15:0]FSMC_ADD,
inout [7:0]FSMC_DAT,
input [1:0]FSMC_NBL,
2022-01-22 17:50:49 +08:00
output FSMC_CLK,
output FSMC_NWAIT,
2022-01-15 15:54:47 +08:00
output ADC_CLK,
input [7:0]ADC_DAT,
2022-01-15 15:54:47 +08:00
output DIO_OUT,
output DIO_IO_SEL,
output [2:0]DIO_CH_SEL,
2022-01-22 17:50:49 +08:00
inout eem0_n_0,
inout eem0_p_0,
inout eem0_n_1,
inout eem0_p_1,
inout eem0_n_2,
inout eem0_p_2,
inout eem0_n_3,
inout eem0_p_3,
inout eem0_n_4,
inout eem0_p_4,
inout eem0_n_5,
inout eem0_p_5,
inout eem0_n_6,
inout eem0_p_6,
inout eem0_n_7,
inout eem0_p_7,
inout eem1_n_0,
inout eem1_p_0,
inout eem1_n_1,
inout eem1_p_1,
2022-01-22 17:50:49 +08:00
inout eem1_n_2,
inout eem1_p_2,
inout eem1_n_3,
inout eem1_p_3,
inout eem1_n_4,
inout eem1_p_4,
inout eem1_n_5,
inout eem1_p_5,
inout eem1_n_6,
inout eem1_p_6,
inout eem1_n_7,
inout eem1_p_7,
inout eem2_n_0,
inout eem2_p_0,
inout eem2_n_1,
inout eem2_p_1,
inout eem2_n_2,
inout eem2_p_2,
inout eem2_n_3,
inout eem2_p_3,
inout eem2_n_4,
inout eem2_p_4,
inout eem2_n_5,
inout eem2_p_5,
inout eem2_n_6,
inout eem2_p_6,
inout eem2_n_7,
inout eem2_p_7,
2022-01-15 15:54:47 +08:00
);
2021-12-31 10:57:11 +08:00
2022-01-22 17:50:49 +08:00
/* LED */
reg [31:0] counter = 32'b0;
// assign LED = counter[24];
// assign LED = ~KEY;
always @ (posedge CLK_25M) begin
counter <= counter + 1;
end
2022-01-22 17:50:49 +08:00
/* high-speed ADC */
wire CLK_80M;
SB_PLL40_CORE #(.FEEDBACK_PATH("SIMPLE"),
.PLLOUT_SELECT("GENCLK"),
.DIVR(4'd4),
.DIVF(7'd15),
.DIVQ(3'd0), //25MHz * (DIVF+1) / 2^DIVQ / (DIVR+1)
.FILTER_RANGE(3'b001), // wfm without PLL is broken
) uut (
2022-01-22 17:50:49 +08:00
.REFERENCECLK(CLK_25M),
.PLLOUTCORE(CLK_80M),
// .LOCK(P16),
.RESETB(1'b1),
.BYPASS(1'b0)
);
2022-01-15 15:54:47 +08:00
parameter ADC_RAM_DEPTH = 16384;
2022-01-22 17:50:49 +08:00
assign ADC_CLK = CLK_80M;
2021-12-31 10:57:11 +08:00
reg [7:0] adc_buf = 8'b0;
2022-01-15 15:54:47 +08:00
reg [7:0] adc_ram [0:ADC_RAM_DEPTH-1];
reg [15:0] ram_pointer = 0;
reg [7:0] adc_status = 8'h00; //0:idle or sampling; 1: data available
always @ (posedge ADC_CLK) begin
if (adc_status[0]) begin
adc_buf = ADC_DAT;
adc_buf[7] = ~adc_buf[7];
adc_ram[ram_pointer] = adc_buf;
2022-01-15 15:54:47 +08:00
if (ram_pointer < ADC_RAM_DEPTH) begin
adc_status[1] = 1'b0;
ram_pointer++;
end
else begin
// adc_status[0] = 1'b0;
adc_status[1] = 1'b1;
ram_pointer = 0;
end
end
end
/* FSMC */
reg [7:0] fsmc_buf;
2021-12-31 10:57:11 +08:00
wire FSMC_RE = ~FSMC_NOE & ~FSMC_NE1;
always @ (posedge FSMC_RE) begin //read from FPGA
2022-01-15 15:54:47 +08:00
// if (FSMC_ADD == 16'hffff)
// FSMC_DAT <= adc_status;
// else
FSMC_DAT <= adc_ram[FSMC_ADD];
end
2021-12-31 10:57:11 +08:00
wire FSMC_WE = ~FSMC_NWE & ~FSMC_NE1;
always @ (posedge FSMC_WE) begin //write to FPGA
//4 bits for LVDS; 3 bits for channel select; 1 bit for IO direction control
DIO_IO_SEL <= FSMC_ADD[0];
DIO_CH_SEL <= FSMC_ADD[3:1];
adc_status[0] = FSMC_ADD[4];
end
// assign FSMC_DAT = FSMC_RE ? fsmc_buf : 8'hzz;
// assign FSMC_CLK = adc_status[0];
2022-01-15 15:54:47 +08:00
assign FSMC_NWAIT = adc_status[1];
2022-01-22 17:50:49 +08:00
/* LVDS */
wire eem_ch0;
wire eem_ch1;
wire eem_ch2;
wire eem_ch3;
wire eem_ch4;
wire eem_ch5;
wire eem_ch6;
wire eem_ch7;
assign eem0_n_0 = eem_ch0;
assign eem0_p_0 = ~eem_ch0;
// assign eem0_n_1 = eem_ch1;
// assign eem0_p_1 = ~eem_ch1;
assign eem0_n_2 = eem_ch2;
assign eem0_p_2 = ~eem_ch2;
assign eem0_n_3 = eem_ch3;
assign eem0_p_3 = ~eem_ch3;
assign eem0_n_4 = eem_ch4;
assign eem0_p_4 = ~eem_ch4;
assign eem0_n_5 = eem_ch5;
assign eem0_p_5 = ~eem_ch5;
assign eem0_n_6 = eem_ch6;
assign eem0_p_6 = ~eem_ch6;
assign eem0_n_7 = eem_ch7;
assign eem0_p_7 = ~eem_ch7;
SB_IO #(
.IO_STANDARD("SB_LVDS_INPUT"), //"SB_LVCMOS" for output
.PIN_TYPE(6'd1)
) SB_IO (
.PACKAGE_PIN(eem0_n_1),
.D_IN_0(eem_ch1)
);
2022-01-22 17:50:49 +08:00
assign eem_ch0 = counter[3];
// assign eem_ch1 = counter[3];
2022-01-22 17:50:49 +08:00
assign eem_ch2 = counter[3];
assign eem_ch3 = counter[3];
assign eem_ch4 = counter[3];
assign eem_ch5 = counter[3];
assign eem_ch6 = counter[3];
assign eem_ch7 = counter[3];
assign LED = eem_ch1;
assign DIO_OUT = counter[24];
endmodule