Visible to Intel only — GUID: mwh1409959577109
Ixiasoft
Visible to Intel only — GUID: mwh1409959577109
Ixiasoft
1.3.1. Inferring Multipliers
For devices with DSP blocks, Quartus® Prime synthesis can implement the function in a DSP block instead of logic, depending on device utilization. The Quartus® Prime fitter can also place input and output registers in DSP blocks (that is, perform register packing) to improve performance and area utilization.
The following Verilog HDL and VHDL code examples show that synthesis tools can infer signed and unsigned multipliers as IP cores or DSP block atoms. Each example fits into one DSP block element. In addition, when register packing occurs, no extra logic cells for registers are required.
Verilog HDL Unsigned Multiplier
module unsigned_mult (out, a, b); output [15:0] out; input [7:0] a; input [7:0] b; assign out = a * b; endmodule
Verilog HDL Signed Multiplier with Input and Output Registers (Pipelining = 2)
module signed_mult (out, clk, a, b); output [15:0] out; input clk; input signed [7:0] a; input signed [7:0] b; reg signed [7:0] a_reg; reg signed [7:0] b_reg; reg signed [15:0] out; wire signed [15:0] mult_out; assign mult_out = a_reg * b_reg; always @ (posedge clk) begin a_reg <= a; b_reg <= b; out <= mult_out; end endmodule
VHDL Unsigned Multiplier with Input and Output Registers (Pipelining = 2)
LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.numeric_std.all; ENTITY unsigned_mult IS PORT ( a: IN UNSIGNED (7 DOWNTO 0); b: IN UNSIGNED (7 DOWNTO 0); clk: IN STD_LOGIC; aclr: IN STD_LOGIC; result: OUT UNSIGNED (15 DOWNTO 0) ); END unsigned_mult; ARCHITECTURE rtl OF unsigned_mult IS SIGNAL a_reg, b_reg: UNSIGNED (7 DOWNTO 0); BEGIN PROCESS (clk, aclr) BEGIN IF (aclr ='1') THEN a_reg <= (OTHERS => '0'); b_reg <= (OTHERS => '0'); result <= (OTHERS => '0'); ELSIF (rising_edge(clk)) THEN a_reg <= a; b_reg <= b; result <= a_reg * b_reg; END IF; END PROCESS; END rtl;
VHDL Signed Multiplier
LIBRARY ieee; USE ieee.std_logic_1164.all; USE ieee.numeric_std.all; ENTITY signed_mult IS PORT ( a: IN SIGNED (7 DOWNTO 0); b: IN SIGNED (7 DOWNTO 0); result: OUT SIGNED (15 DOWNTO 0) ); END signed_mult; ARCHITECTURE rtl OF signed_mult IS BEGIN result <= a * b; END rtl;