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module altera_avalon_sc_fifo #( // -------------------------------------------------- // Parameters // -------------------------------------------------- parameter SYMBOLS_PER_BEAT = 1, parameter BITS_PER_SYMBOL = 8, parameter FIFO_DEPTH = 16, parameter CHANNEL_WIDTH = 0, p...
module altera_avalon_sc_fifo #( // -------------------------------------------------- // Parameters // -------------------------------------------------- parameter SYMBOLS_PER_BEAT = 1, parameter BITS_PER_SYMBOL = 8, parameter FIFO_DEPTH = 16, parameter CHANNEL_WIDTH = 0, p...
module altera_avalon_sc_fifo #( // -------------------------------------------------- // Parameters // -------------------------------------------------- parameter SYMBOLS_PER_BEAT = 1, parameter BITS_PER_SYMBOL = 8, parameter FIFO_DEPTH = 16, parameter CHANNEL_WIDTH = 0, p...
module altera_avalon_sc_fifo #( // -------------------------------------------------- // Parameters // -------------------------------------------------- parameter SYMBOLS_PER_BEAT = 1, parameter BITS_PER_SYMBOL = 8, parameter FIFO_DEPTH = 16, parameter CHANNEL_WIDTH = 0, p...
module altera_avalon_sc_fifo #( // -------------------------------------------------- // Parameters // -------------------------------------------------- parameter SYMBOLS_PER_BEAT = 1, parameter BITS_PER_SYMBOL = 8, parameter FIFO_DEPTH = 16, parameter CHANNEL_WIDTH = 0, p...
module axi_protocol_converter_v2_1_r_axi3_conv # ( parameter C_FAMILY = "none", parameter integer C_AXI_ID_WIDTH = 1, parameter integer C_AXI_ADDR_WIDTH = 32, parameter integer C_AXI_DATA_WIDTH = 32, parameter integer C_AXI_SUPPORTS_USER_SIG...
module e0 (x, y); input [31:0] x; output [31:0] y; assign y = {x[1:0],x[31:2]} ^ {x[12:0],x[31:13]} ^ {x[21:0],x[31:22]}; endmodule
module e1 (x, y); input [31:0] x; output [31:0] y; assign y = {x[5:0],x[31:6]} ^ {x[10:0],x[31:11]} ^ {x[24:0],x[31:25]}; endmodule
module ch (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = z ^ (x & (y ^ z)); endmodule
module maj (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = (x & y) | (z & (x | y)); endmodule
module s0 (x, y); input [31:0] x; output [31:0] y; assign y[31:29] = x[6:4] ^ x[17:15]; assign y[28:0] = {x[3:0], x[31:7]} ^ {x[14:0],x[31:18]} ^ x[31:3]; endmodule
module s1 (x, y); input [31:0] x; output [31:0] y; assign y[31:22] = x[16:7] ^ x[18:9]; assign y[21:0] = {x[6:0],x[31:17]} ^ {x[8:0],x[31:19]} ^ x[31:10]; endmodule
module e0 (x, y); input [31:0] x; output [31:0] y; assign y = {x[1:0],x[31:2]} ^ {x[12:0],x[31:13]} ^ {x[21:0],x[31:22]}; endmodule
module e1 (x, y); input [31:0] x; output [31:0] y; assign y = {x[5:0],x[31:6]} ^ {x[10:0],x[31:11]} ^ {x[24:0],x[31:25]}; endmodule
module ch (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = z ^ (x & (y ^ z)); endmodule
module maj (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = (x & y) | (z & (x | y)); endmodule
module s0 (x, y); input [31:0] x; output [31:0] y; assign y[31:29] = x[6:4] ^ x[17:15]; assign y[28:0] = {x[3:0], x[31:7]} ^ {x[14:0],x[31:18]} ^ x[31:3]; endmodule
module s1 (x, y); input [31:0] x; output [31:0] y; assign y[31:22] = x[16:7] ^ x[18:9]; assign y[21:0] = {x[6:0],x[31:17]} ^ {x[8:0],x[31:19]} ^ x[31:10]; endmodule
module e0 (x, y); input [31:0] x; output [31:0] y; assign y = {x[1:0],x[31:2]} ^ {x[12:0],x[31:13]} ^ {x[21:0],x[31:22]}; endmodule
module e1 (x, y); input [31:0] x; output [31:0] y; assign y = {x[5:0],x[31:6]} ^ {x[10:0],x[31:11]} ^ {x[24:0],x[31:25]}; endmodule
module ch (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = z ^ (x & (y ^ z)); endmodule
module maj (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = (x & y) | (z & (x | y)); endmodule
module s0 (x, y); input [31:0] x; output [31:0] y; assign y[31:29] = x[6:4] ^ x[17:15]; assign y[28:0] = {x[3:0], x[31:7]} ^ {x[14:0],x[31:18]} ^ x[31:3]; endmodule
module s1 (x, y); input [31:0] x; output [31:0] y; assign y[31:22] = x[16:7] ^ x[18:9]; assign y[21:0] = {x[6:0],x[31:17]} ^ {x[8:0],x[31:19]} ^ x[31:10]; endmodule
module e0 (x, y); input [31:0] x; output [31:0] y; assign y = {x[1:0],x[31:2]} ^ {x[12:0],x[31:13]} ^ {x[21:0],x[31:22]}; endmodule
module e1 (x, y); input [31:0] x; output [31:0] y; assign y = {x[5:0],x[31:6]} ^ {x[10:0],x[31:11]} ^ {x[24:0],x[31:25]}; endmodule
module ch (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = z ^ (x & (y ^ z)); endmodule
module maj (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = (x & y) | (z & (x | y)); endmodule
module s0 (x, y); input [31:0] x; output [31:0] y; assign y[31:29] = x[6:4] ^ x[17:15]; assign y[28:0] = {x[3:0], x[31:7]} ^ {x[14:0],x[31:18]} ^ x[31:3]; endmodule
module s1 (x, y); input [31:0] x; output [31:0] y; assign y[31:22] = x[16:7] ^ x[18:9]; assign y[21:0] = {x[6:0],x[31:17]} ^ {x[8:0],x[31:19]} ^ x[31:10]; endmodule
module e0 (x, y); input [31:0] x; output [31:0] y; assign y = {x[1:0],x[31:2]} ^ {x[12:0],x[31:13]} ^ {x[21:0],x[31:22]}; endmodule
module e1 (x, y); input [31:0] x; output [31:0] y; assign y = {x[5:0],x[31:6]} ^ {x[10:0],x[31:11]} ^ {x[24:0],x[31:25]}; endmodule
module ch (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = z ^ (x & (y ^ z)); endmodule
module maj (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = (x & y) | (z & (x | y)); endmodule
module s0 (x, y); input [31:0] x; output [31:0] y; assign y[31:29] = x[6:4] ^ x[17:15]; assign y[28:0] = {x[3:0], x[31:7]} ^ {x[14:0],x[31:18]} ^ x[31:3]; endmodule
module s1 (x, y); input [31:0] x; output [31:0] y; assign y[31:22] = x[16:7] ^ x[18:9]; assign y[21:0] = {x[6:0],x[31:17]} ^ {x[8:0],x[31:19]} ^ x[31:10]; endmodule
module e0 (x, y); input [31:0] x; output [31:0] y; assign y = {x[1:0],x[31:2]} ^ {x[12:0],x[31:13]} ^ {x[21:0],x[31:22]}; endmodule
module e1 (x, y); input [31:0] x; output [31:0] y; assign y = {x[5:0],x[31:6]} ^ {x[10:0],x[31:11]} ^ {x[24:0],x[31:25]}; endmodule
module ch (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = z ^ (x & (y ^ z)); endmodule
module maj (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = (x & y) | (z & (x | y)); endmodule
module s0 (x, y); input [31:0] x; output [31:0] y; assign y[31:29] = x[6:4] ^ x[17:15]; assign y[28:0] = {x[3:0], x[31:7]} ^ {x[14:0],x[31:18]} ^ x[31:3]; endmodule
module s1 (x, y); input [31:0] x; output [31:0] y; assign y[31:22] = x[16:7] ^ x[18:9]; assign y[21:0] = {x[6:0],x[31:17]} ^ {x[8:0],x[31:19]} ^ x[31:10]; endmodule
module e0 (x, y); input [31:0] x; output [31:0] y; assign y = {x[1:0],x[31:2]} ^ {x[12:0],x[31:13]} ^ {x[21:0],x[31:22]}; endmodule
module e1 (x, y); input [31:0] x; output [31:0] y; assign y = {x[5:0],x[31:6]} ^ {x[10:0],x[31:11]} ^ {x[24:0],x[31:25]}; endmodule
module ch (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = z ^ (x & (y ^ z)); endmodule
module maj (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = (x & y) | (z & (x | y)); endmodule
module s0 (x, y); input [31:0] x; output [31:0] y; assign y[31:29] = x[6:4] ^ x[17:15]; assign y[28:0] = {x[3:0], x[31:7]} ^ {x[14:0],x[31:18]} ^ x[31:3]; endmodule
module s1 (x, y); input [31:0] x; output [31:0] y; assign y[31:22] = x[16:7] ^ x[18:9]; assign y[21:0] = {x[6:0],x[31:17]} ^ {x[8:0],x[31:19]} ^ x[31:10]; endmodule
module e0 (x, y); input [31:0] x; output [31:0] y; assign y = {x[1:0],x[31:2]} ^ {x[12:0],x[31:13]} ^ {x[21:0],x[31:22]}; endmodule
module e1 (x, y); input [31:0] x; output [31:0] y; assign y = {x[5:0],x[31:6]} ^ {x[10:0],x[31:11]} ^ {x[24:0],x[31:25]}; endmodule
module ch (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = z ^ (x & (y ^ z)); endmodule
module maj (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = (x & y) | (z & (x | y)); endmodule
module s0 (x, y); input [31:0] x; output [31:0] y; assign y[31:29] = x[6:4] ^ x[17:15]; assign y[28:0] = {x[3:0], x[31:7]} ^ {x[14:0],x[31:18]} ^ x[31:3]; endmodule
module s1 (x, y); input [31:0] x; output [31:0] y; assign y[31:22] = x[16:7] ^ x[18:9]; assign y[21:0] = {x[6:0],x[31:17]} ^ {x[8:0],x[31:19]} ^ x[31:10]; endmodule
module e0 (x, y); input [31:0] x; output [31:0] y; assign y = {x[1:0],x[31:2]} ^ {x[12:0],x[31:13]} ^ {x[21:0],x[31:22]}; endmodule
module e1 (x, y); input [31:0] x; output [31:0] y; assign y = {x[5:0],x[31:6]} ^ {x[10:0],x[31:11]} ^ {x[24:0],x[31:25]}; endmodule
module ch (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = z ^ (x & (y ^ z)); endmodule
module maj (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = (x & y) | (z & (x | y)); endmodule
module s0 (x, y); input [31:0] x; output [31:0] y; assign y[31:29] = x[6:4] ^ x[17:15]; assign y[28:0] = {x[3:0], x[31:7]} ^ {x[14:0],x[31:18]} ^ x[31:3]; endmodule
module s1 (x, y); input [31:0] x; output [31:0] y; assign y[31:22] = x[16:7] ^ x[18:9]; assign y[21:0] = {x[6:0],x[31:17]} ^ {x[8:0],x[31:19]} ^ x[31:10]; endmodule
module e0 (x, y); input [31:0] x; output [31:0] y; assign y = {x[1:0],x[31:2]} ^ {x[12:0],x[31:13]} ^ {x[21:0],x[31:22]}; endmodule
module e1 (x, y); input [31:0] x; output [31:0] y; assign y = {x[5:0],x[31:6]} ^ {x[10:0],x[31:11]} ^ {x[24:0],x[31:25]}; endmodule
module ch (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = z ^ (x & (y ^ z)); endmodule
module maj (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = (x & y) | (z & (x | y)); endmodule
module s0 (x, y); input [31:0] x; output [31:0] y; assign y[31:29] = x[6:4] ^ x[17:15]; assign y[28:0] = {x[3:0], x[31:7]} ^ {x[14:0],x[31:18]} ^ x[31:3]; endmodule
module s1 (x, y); input [31:0] x; output [31:0] y; assign y[31:22] = x[16:7] ^ x[18:9]; assign y[21:0] = {x[6:0],x[31:17]} ^ {x[8:0],x[31:19]} ^ x[31:10]; endmodule
module e0 (x, y); input [31:0] x; output [31:0] y; assign y = {x[1:0],x[31:2]} ^ {x[12:0],x[31:13]} ^ {x[21:0],x[31:22]}; endmodule
module e1 (x, y); input [31:0] x; output [31:0] y; assign y = {x[5:0],x[31:6]} ^ {x[10:0],x[31:11]} ^ {x[24:0],x[31:25]}; endmodule
module ch (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = z ^ (x & (y ^ z)); endmodule
module maj (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = (x & y) | (z & (x | y)); endmodule
module s0 (x, y); input [31:0] x; output [31:0] y; assign y[31:29] = x[6:4] ^ x[17:15]; assign y[28:0] = {x[3:0], x[31:7]} ^ {x[14:0],x[31:18]} ^ x[31:3]; endmodule
module s1 (x, y); input [31:0] x; output [31:0] y; assign y[31:22] = x[16:7] ^ x[18:9]; assign y[21:0] = {x[6:0],x[31:17]} ^ {x[8:0],x[31:19]} ^ x[31:10]; endmodule
module e0 (x, y); input [31:0] x; output [31:0] y; assign y = {x[1:0],x[31:2]} ^ {x[12:0],x[31:13]} ^ {x[21:0],x[31:22]}; endmodule
module e1 (x, y); input [31:0] x; output [31:0] y; assign y = {x[5:0],x[31:6]} ^ {x[10:0],x[31:11]} ^ {x[24:0],x[31:25]}; endmodule
module ch (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = z ^ (x & (y ^ z)); endmodule
module maj (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = (x & y) | (z & (x | y)); endmodule
module s0 (x, y); input [31:0] x; output [31:0] y; assign y[31:29] = x[6:4] ^ x[17:15]; assign y[28:0] = {x[3:0], x[31:7]} ^ {x[14:0],x[31:18]} ^ x[31:3]; endmodule
module s1 (x, y); input [31:0] x; output [31:0] y; assign y[31:22] = x[16:7] ^ x[18:9]; assign y[21:0] = {x[6:0],x[31:17]} ^ {x[8:0],x[31:19]} ^ x[31:10]; endmodule
module e0 (x, y); input [31:0] x; output [31:0] y; assign y = {x[1:0],x[31:2]} ^ {x[12:0],x[31:13]} ^ {x[21:0],x[31:22]}; endmodule
module e1 (x, y); input [31:0] x; output [31:0] y; assign y = {x[5:0],x[31:6]} ^ {x[10:0],x[31:11]} ^ {x[24:0],x[31:25]}; endmodule
module ch (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = z ^ (x & (y ^ z)); endmodule
module maj (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = (x & y) | (z & (x | y)); endmodule
module s0 (x, y); input [31:0] x; output [31:0] y; assign y[31:29] = x[6:4] ^ x[17:15]; assign y[28:0] = {x[3:0], x[31:7]} ^ {x[14:0],x[31:18]} ^ x[31:3]; endmodule
module s1 (x, y); input [31:0] x; output [31:0] y; assign y[31:22] = x[16:7] ^ x[18:9]; assign y[21:0] = {x[6:0],x[31:17]} ^ {x[8:0],x[31:19]} ^ x[31:10]; endmodule
module e0 (x, y); input [31:0] x; output [31:0] y; assign y = {x[1:0],x[31:2]} ^ {x[12:0],x[31:13]} ^ {x[21:0],x[31:22]}; endmodule
module e1 (x, y); input [31:0] x; output [31:0] y; assign y = {x[5:0],x[31:6]} ^ {x[10:0],x[31:11]} ^ {x[24:0],x[31:25]}; endmodule
module ch (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = z ^ (x & (y ^ z)); endmodule
module maj (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = (x & y) | (z & (x | y)); endmodule
module s0 (x, y); input [31:0] x; output [31:0] y; assign y[31:29] = x[6:4] ^ x[17:15]; assign y[28:0] = {x[3:0], x[31:7]} ^ {x[14:0],x[31:18]} ^ x[31:3]; endmodule
module s1 (x, y); input [31:0] x; output [31:0] y; assign y[31:22] = x[16:7] ^ x[18:9]; assign y[21:0] = {x[6:0],x[31:17]} ^ {x[8:0],x[31:19]} ^ x[31:10]; endmodule
module e0 (x, y); input [31:0] x; output [31:0] y; assign y = {x[1:0],x[31:2]} ^ {x[12:0],x[31:13]} ^ {x[21:0],x[31:22]}; endmodule
module e1 (x, y); input [31:0] x; output [31:0] y; assign y = {x[5:0],x[31:6]} ^ {x[10:0],x[31:11]} ^ {x[24:0],x[31:25]}; endmodule
module ch (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = z ^ (x & (y ^ z)); endmodule
module maj (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = (x & y) | (z & (x | y)); endmodule
module s0 (x, y); input [31:0] x; output [31:0] y; assign y[31:29] = x[6:4] ^ x[17:15]; assign y[28:0] = {x[3:0], x[31:7]} ^ {x[14:0],x[31:18]} ^ x[31:3]; endmodule
module s1 (x, y); input [31:0] x; output [31:0] y; assign y[31:22] = x[16:7] ^ x[18:9]; assign y[21:0] = {x[6:0],x[31:17]} ^ {x[8:0],x[31:19]} ^ x[31:10]; endmodule
module e0 (x, y); input [31:0] x; output [31:0] y; assign y = {x[1:0],x[31:2]} ^ {x[12:0],x[31:13]} ^ {x[21:0],x[31:22]}; endmodule
module e1 (x, y); input [31:0] x; output [31:0] y; assign y = {x[5:0],x[31:6]} ^ {x[10:0],x[31:11]} ^ {x[24:0],x[31:25]}; endmodule
module ch (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = z ^ (x & (y ^ z)); endmodule
module maj (x, y, z, o); input [31:0] x, y, z; output [31:0] o; assign o = (x & y) | (z & (x | y)); endmodule