I am doing a very simple test to read off from the register and i cant even do that. I am tryin to load the written register data to the LEDs and so far i see nothing. Can anyone check the code to see if i made a mistake? 

 

 

 

 

 

 

 

 

module usb_test4 ( 

CLOCK_50, 

KEY, 

SW, 

OTG_DATA, // ISP1362 Data bus 16 Bits 

OTG_ADDR, // ISP1362 Address 2 Bits 

OTG_CS_N, // ISP1362 Chip Select 

OTG_RD_N, // ISP1362 Write 

OTG_WR_N, // ISP1362 Read 

OTG_RST_N, // ISP1362 Reset 

OTG_FSPEED, // USB Full Speed, 0 = Enable, Z = Disable 

OTG_LSPEED, // USB Low Speed, 0 = Enable, Z = Disable 

OTG_INT0, // ISP1362 Interrupt 0 

OTG_INT1, // ISP1362 Interrupt 1 

OTG_DREQ0, // ISP1362 DMA Request 0 

OTG_DREQ1, // ISP1362 DMA Request 1 

OTG_DACK0_N, // ISP1362 DMA Acknowledge 0 

OTG_DACK1_N, // ISP1362 DMA Acknowledge 1 

 

LEDG, // LED Green[8:0] 

LEDR // LED Red[17:0] 

); 

 

input CLOCK_50; 

input [17:0] SW;  

input [3:0] KEY; 

 

input OTG_DREQ0; // ISP1362 DMA Request 0 

input OTG_DREQ1; // ISP1362 DMA Request 1 

input OTG_INT0; // ISP1362 Interrupt 0 

input OTG_INT1; // ISP1362 Interrupt 1 

 

inout [15:0] OTG_DATA; // ISP1362 Data bus 16 Bits 

output [1:0] OTG_ADDR; // ISP1362 Address 2 Bits 

output OTG_RST_N; // ISP1362 Reset 

output OTG_CS_N; // ISP1362 Chip Select 

output OTG_DACK0_N; // ISP1362 DMA Acknowledge 0 

output OTG_DACK1_N; // ISP1362 DMA Acknowledge 1 

output OTG_RD_N; // ISP1362 Write 

output OTG_WR_N; // ISP1362 Read 

output OTG_FSPEED; // USB Full Speed, 0 = Enable, Z = Disable 

output OTG_LSPEED; // USB Low Speed, 0 = Enable, Z = Disable 

 

 

 

 

output [8:0] LEDG; // LED Green[8:0] 

output [17:0] LEDR; // LED Red[17:0] 

 

 

reg chip_enable; 

reg chip_reset; 

reg ack; 

reg [1:0] address; 

reg [15:0] data; 

reg read_chip; // ISP1362 Write 

reg write_chip ; // ISP1362 Read 

 

reg [3:0] bytes8 = 4'b0000; 

reg [3:0] bytes16 = 4'b0001; 

reg [3:0] bytes32 = 4'b0010; 

reg [3:0] bytes64 = 4'b0011; 

 

reg [3:0] EP1 = 4'b0010; 

reg [3:0] EP2 = 4'b0011; 

reg [3:0] EP3 = 4'b0100; 

reg [3:0] EP4 = 4'b0101; 

reg [3:0] EP5 = 4'b0110; 

reg [3:0] EP6 = 4'b0111; 

reg [3:0] EP7 = 4'b1000; 

reg [3:0] EP8 = 4'b1001; 

reg [3:0] EP9 = 4'b1010; 

reg [3:0] EP10 = 4'b1011; 

reg [3:0] EP11 = 4'b1100; 

reg [3:0] EP12 = 4'b1101; 

reg [3:0] EP13 = 4'b1110; 

reg [3:0] EP14 = 4'b1111; 

 

reg OUT=0; 

reg IN=1; 

 

reg [8:0]led_green_fcn; 

reg [17:0]led_red_fcn; 

 

assign OTG_CS_N = !chip_enable;// not 

assign OTG_RST_N = !chip_reset;//not // ISP1362 Reset 

assign OTG_DACK1_N = ack; // ISP1362 DMA Acknowledge 1 

assign OTG_RD_N = !read_chip; //not // ISP1362 Write 

assign OTG_WR_N = !write_chip; //not // ISP1362 Read 

assign OTG_FSPEED = 1'bz; // USB Full Speed, 0 = Enable, Z = Disable 

assign OTG_LSPEED = 0; // USB Low Speed, 0 = Enable, Z = Disable 

assign OTG_ADDR = address; 

assign OTG_DATA = data; 

assign LEDG = led_green_fcn; 

assign LEDR = led_red_fcn; 

 

initial begin  

chip_reset=1; 

chip_reset=0; 

end 

 

initial begin  

led_red_fcn= 18'b000000000000000001 ;  

//DMACounter( read_write, size )  

DMACounter( 1, 16'h3333 ); 

end  

 

 

always @(posedge CLOCK_50) begin 

 

if (SW[1]) begin  

DMACounter( 0, 16'h1111 ); 

//led_red_fcn= data;  

end else begin 

//led_red_fcn=0; 

DMACounter( 1, 16'h2222 ); 

end 

 

 

end  

 

 

 

 

 

 

 

 

task command_out ; 

input [3:0] code; 

rw_reset(); 

chip_enable=1; 

write_chip = 1; 

address = 2'b11; 

data[3:0] = code; 

rw_reset(); 

endtask 

 

task data_out; 

input [15:0] code; 

rw_reset(); 

chip_enable=1; 

write_chip=1; 

address= 2'b10; 

data = code; 

rw_reset(); 

endtask 

 

task data_in; 

rw_reset(); 

//input [15:0] code; 

chip_enable=1; 

read_chip=1; 

address= 2'b11; 

 

led_red_fcn[15:0] = data; 

rw_reset(); 

endtask 

 

task rw_reset; 

chip_enable=0; 

write_chip= 0; 

read_chip = 0 ; 

address=0; 

data_reset(); 

endtask 

 

task data_reset; 

data = 16'b0000000000000000; 

endtask 

 

task DMACounter; // DMACounter(.read_write(), .size() )  

input read_write; 

input [15:0] size; 

reg [15:0] all; 

all=size; 

if (read_write) begin 

command_out(2'hF2); 

data_out(all); 

end else begin  

command_out(2'hF3); 

data_in(); 

end 

all=16'b0000000000000000; 

endtask 

 

endmodule