OpenFPGA/openfpga_flow/VerilogNetlists/latch.v

256 lines
5.8 KiB
Verilog

//-----------------------------------------------------
// Design Name : config_latch
// File Name : config_latch.v
// Coder : Xifan TANG
//-----------------------------------------------------
//-----------------------------------------------------
// Function : A Configurable Latch with
// - an active-high write enable signal
//-----------------------------------------------------
module LATCH (
input WE, // Write enable
input D, // Data input
output Q, // Q output
output QN // Q negative output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ (WE or D) begin
if (1'b1 == WE) begin
q_reg <= D;
end
end
// Wire q_reg to Q
`ifndef ENABLE_FORMAL_VERIFICATION
assign Q = q_reg;
assign QN = ~q_reg;
`else
assign Q = 1'bZ;
assign QN = !Q;
`endif
endmodule
//-----------------------------------------------------
// Function : A Configurable Latch with
// - an active-high write enable signal
// - an active-high reset signal
//-----------------------------------------------------
module LATCHR (
input RST, // Reset signal
input WE, // Write enable
input D, // Data input
output Q, // Q output
output QN // Q negative output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ (RST or WE or D) begin
if (RST) begin
q_reg <= 1'b0;
end else if (1'b1 == WE) begin
q_reg <= D;
end
end
// Wire q_reg to Q
`ifndef ENABLE_FORMAL_VERIFICATION
assign Q = q_reg;
assign QN = ~q_reg;
`else
assign Q = 1'bZ;
assign QN = !Q;
`endif
endmodule
//-----------------------------------------------------
// Function : A Configurable Latch with
// - an active-high write enable signal
// - an active-low reset signal
//-----------------------------------------------------
module LATCHRN (
input RSTN, // Reset signal
input WE, // Write enable
input D, // Data input
output Q, // Q output
output QN // Q negative output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ (RSTN or WE or D) begin
if (~RSTN) begin
q_reg <= 1'b0;
end else if (1'b1 == WE) begin
q_reg <= D;
end
end
// Wire q_reg to Q
`ifndef ENABLE_FORMAL_VERIFICATION
assign Q = q_reg;
assign QN = ~q_reg;
`else
assign Q = 1'bZ;
assign QN = !Q;
`endif
endmodule
//-----------------------------------------------------
// Function : A Configurable Latch with
// - an active-high write enable signal
// - an active-high set signal
//-----------------------------------------------------
module LATCHS (
input SET, // Set signal
input WE, // Write enable
input D, // Data input
output Q, // Q output
output QN // Q negative output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ (SET or WE or D) begin
if (SET) begin
q_reg <= 1'b1;
end else if (1'b1 == WE) begin
q_reg <= D;
end
end
// Wire q_reg to Q
`ifndef ENABLE_FORMAL_VERIFICATION
assign Q = q_reg;
assign QN = ~q_reg;
`else
assign Q = 1'bZ;
assign QN = !Q;
`endif
endmodule
//-----------------------------------------------------
// Function : A Configurable Latch with
// - an active-high write enable signal
// - an active-low set signal
//-----------------------------------------------------
module LATCHSN (
input SETN, // Set signal
input WE, // Write enable
input D, // Data input
output Q, // Q output
output QN // Q negative output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ (SETN or WE or D) begin
if (~SETN) begin
q_reg <= 1'b1;
end else if (1'b1 == WE) begin
q_reg <= D;
end
end
// Wire q_reg to Q
`ifndef ENABLE_FORMAL_VERIFICATION
assign Q = q_reg;
assign QN = ~q_reg;
`else
assign Q = 1'bZ;
assign QN = !Q;
`endif
endmodule
//-----------------------------------------------------
// Function : A Configurable Latch with
// - an active-high write enable signal
// - an active-high reset signal
// - an active-high set signal
//-----------------------------------------------------
module LATCHSR (
input RST, // Reset signal
input SET, // Set signal
input WE, // Write enable
input D, // Data input
output Q, // Q output
output QN // Q negative output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ (RST or SET or WE or D) begin
if (RST) begin
q_reg <= 1'b0;
end else if (SET) begin
q_reg <= 1'b1;
end else if (1'b1 == WE) begin
q_reg <= D;
end
end
// Wire q_reg to Q
`ifndef ENABLE_FORMAL_VERIFICATION
assign Q = q_reg;
assign QN = ~q_reg;
`else
assign Q = 1'bZ;
assign QN = !Q;
`endif
endmodule
//-----------------------------------------------------
// Function : A Configurable Latch with
// - an active-high write enable signal
// - an active-high reset signal
// - an active-high set signal
//-----------------------------------------------------
module LATCHSNRN (
input RSTN, // Reset signal
input SETN, // Set signal
input WE, // Write enable
input D, // Data input
output Q, // Q output
output QN // Q negative output
);
//------------Internal Variables--------
reg q_reg;
//-------------Code Starts Here---------
always @ (RSTN or SETN or WE or D) begin
if (~RSTN) begin
q_reg <= 1'b0;
end else if (~SETN) begin
q_reg <= 1'b1;
end else if (1'b1 == WE) begin
q_reg <= D;
end
end
// Wire q_reg to Q
`ifndef ENABLE_FORMAL_VERIFICATION
assign Q = q_reg;
assign QN = ~q_reg;
`else
assign Q = 1'bZ;
assign QN = !Q;
`endif
endmodule