| //------------------------------------------- |
| // FPGA Synthesizable Verilog Netlist |
| // Description: Verilog modules for pb_type: fabric |
| // Author: Xifan TANG |
| // Organization: University of Utah |
| // Date: Tue Nov 24 18:04:19 2020 |
| //------------------------------------------- |
| //----- Time scale ----- |
| `timescale 1ns / 1ps |
| |
| // ----- BEGIN Physical programmable logic block Verilog module: fabric ----- |
| // ----- Verilog module for ltile_phy_fabric ----- |
| module ltile_phy_fabric(prog_clk, |
| Test_en, |
| fabric_in, |
| fabric_reg_in, |
| fabric_sc_in, |
| fabric_clk, |
| ccff_head, |
| fabric_out, |
| fabric_reg_out, |
| fabric_sc_out, |
| ccff_tail); |
| //----- GLOBAL PORTS ----- |
| input [0:0] prog_clk; |
| //----- GLOBAL PORTS ----- |
| input [0:0] Test_en; |
| //----- INPUT PORTS ----- |
| input [0:3] fabric_in; |
| //----- INPUT PORTS ----- |
| input [0:0] fabric_reg_in; |
| //----- INPUT PORTS ----- |
| input [0:0] fabric_sc_in; |
| //----- INPUT PORTS ----- |
| input [0:0] fabric_clk; |
| //----- INPUT PORTS ----- |
| input [0:0] ccff_head; |
| //----- OUTPUT PORTS ----- |
| output [0:1] fabric_out; |
| //----- OUTPUT PORTS ----- |
| output [0:0] fabric_reg_out; |
| //----- OUTPUT PORTS ----- |
| output [0:0] fabric_sc_out; |
| //----- OUTPUT PORTS ----- |
| output [0:0] ccff_tail; |
| |
| //----- BEGIN wire-connection ports ----- |
| wire [0:3] fabric_in; |
| wire [0:0] fabric_reg_in; |
| wire [0:0] fabric_sc_in; |
| wire [0:0] fabric_clk; |
| wire [0:1] fabric_out; |
| wire [0:0] fabric_reg_out; |
| wire [0:0] fabric_sc_out; |
| //----- END wire-connection ports ----- |
| |
| |
| //----- BEGIN Registered ports ----- |
| //----- END Registered ports ----- |
| |
| |
| wire [0:0] direct_interc_10_out; |
| wire [0:0] direct_interc_2_out; |
| wire [0:0] direct_interc_3_out; |
| wire [0:0] direct_interc_4_out; |
| wire [0:0] direct_interc_5_out; |
| wire [0:0] direct_interc_6_out; |
| wire [0:0] direct_interc_7_out; |
| wire [0:0] direct_interc_8_out; |
| wire [0:0] direct_interc_9_out; |
| wire [0:0] ltile_clb_fle_ff_0_ff_Q; |
| wire [0:0] ltile_clb_fle_ff_1_ff_Q; |
| wire [0:0] ltile_frac_logic_0_ccff_tail; |
| wire [0:1] ltile_frac_logic_0_frac_logic_out; |
| wire [0:1] mux_fabric_out_0_undriven_sram_inv; |
| wire [0:1] mux_fabric_out_1_undriven_sram_inv; |
| wire [0:1] mux_ff_0_D_0_undriven_sram_inv; |
| wire [0:1] mux_tree_size2_0_sram; |
| wire [0:1] mux_tree_size2_1_sram; |
| wire [0:0] mux_tree_size2_2_out; |
| wire [0:1] mux_tree_size2_2_sram; |
| wire [0:0] mux_tree_size2_mem_0_ccff_tail; |
| wire [0:0] mux_tree_size2_mem_1_ccff_tail; |
| |
| // ----- BEGIN Local short connections ----- |
| // ----- END Local short connections ----- |
| // ----- BEGIN Local output short connections ----- |
| // ----- END Local output short connections ----- |
| |
| ltile_frac_logic ltile_frac_logic_0 ( |
| .prog_clk(prog_clk[0]), |
| .frac_logic_in({direct_interc_2_out[0], direct_interc_3_out[0], direct_interc_4_out[0], direct_interc_5_out[0]}), |
| .ccff_head(ccff_head[0]), |
| .frac_logic_out(ltile_frac_logic_0_frac_logic_out[0:1]), |
| .ccff_tail(ltile_frac_logic_0_ccff_tail[0])); |
| |
| ltile_clb_fle_ff ltile_clb_fle_ff_0 ( |
| .Test_en(Test_en[0]), |
| .ff_D(mux_tree_size2_2_out[0]), |
| .ff_DI(direct_interc_6_out[0]), |
| .ff_Q(ltile_clb_fle_ff_0_ff_Q[0]), |
| .ff_clk(direct_interc_7_out[0])); |
| |
| ltile_clb_fle_ff ltile_clb_fle_ff_1 ( |
| .Test_en(Test_en[0]), |
| .ff_D(direct_interc_8_out[0]), |
| .ff_DI(direct_interc_9_out[0]), |
| .ff_Q(ltile_clb_fle_ff_1_ff_Q[0]), |
| .ff_clk(direct_interc_10_out[0])); |
| |
| mux_tree_size2 mux_fabric_out_0 ( |
| .in({ltile_clb_fle_ff_0_ff_Q[0], ltile_frac_logic_0_frac_logic_out[0]}), |
| .sram(mux_tree_size2_0_sram[0:1]), |
| .sram_inv(mux_fabric_out_0_undriven_sram_inv[0:1]), |
| .out(fabric_out[0])); |
| |
| mux_tree_size2 mux_fabric_out_1 ( |
| .in({ltile_clb_fle_ff_1_ff_Q[0], ltile_frac_logic_0_frac_logic_out[1]}), |
| .sram(mux_tree_size2_1_sram[0:1]), |
| .sram_inv(mux_fabric_out_1_undriven_sram_inv[0:1]), |
| .out(fabric_out[1])); |
| |
| mux_tree_size2 mux_ff_0_D_0 ( |
| .in({ltile_frac_logic_0_frac_logic_out[0], fabric_reg_in[0]}), |
| .sram(mux_tree_size2_2_sram[0:1]), |
| .sram_inv(mux_ff_0_D_0_undriven_sram_inv[0:1]), |
| .out(mux_tree_size2_2_out[0])); |
| |
| mux_tree_size2_mem mem_fabric_out_0 ( |
| .prog_clk(prog_clk[0]), |
| .ccff_head(ltile_frac_logic_0_ccff_tail[0]), |
| .ccff_tail(mux_tree_size2_mem_0_ccff_tail[0]), |
| .mem_out(mux_tree_size2_0_sram[0:1])); |
| |
| mux_tree_size2_mem mem_fabric_out_1 ( |
| .prog_clk(prog_clk[0]), |
| .ccff_head(mux_tree_size2_mem_0_ccff_tail[0]), |
| .ccff_tail(mux_tree_size2_mem_1_ccff_tail[0]), |
| .mem_out(mux_tree_size2_1_sram[0:1])); |
| |
| mux_tree_size2_mem mem_ff_0_D_0 ( |
| .prog_clk(prog_clk[0]), |
| .ccff_head(mux_tree_size2_mem_1_ccff_tail[0]), |
| .ccff_tail(ccff_tail[0]), |
| .mem_out(mux_tree_size2_2_sram[0:1])); |
| |
| direct_interc direct_interc_0_ ( |
| .in(ltile_clb_fle_ff_1_ff_Q[0]), |
| .out(fabric_reg_out[0])); |
| |
| direct_interc direct_interc_1_ ( |
| .in(ltile_clb_fle_ff_1_ff_Q[0]), |
| .out(fabric_sc_out[0])); |
| |
| direct_interc direct_interc_2_ ( |
| .in(fabric_in[0]), |
| .out(direct_interc_2_out[0])); |
| |
| direct_interc direct_interc_3_ ( |
| .in(fabric_in[1]), |
| .out(direct_interc_3_out[0])); |
| |
| direct_interc direct_interc_4_ ( |
| .in(fabric_in[2]), |
| .out(direct_interc_4_out[0])); |
| |
| direct_interc direct_interc_5_ ( |
| .in(fabric_in[3]), |
| .out(direct_interc_5_out[0])); |
| |
| direct_interc direct_interc_6_ ( |
| .in(fabric_sc_in[0]), |
| .out(direct_interc_6_out[0])); |
| |
| direct_interc direct_interc_7_ ( |
| .in(fabric_clk[0]), |
| .out(direct_interc_7_out[0])); |
| |
| direct_interc direct_interc_8_ ( |
| .in(ltile_frac_logic_0_frac_logic_out[1]), |
| .out(direct_interc_8_out[0])); |
| |
| direct_interc direct_interc_9_ ( |
| .in(ltile_clb_fle_ff_0_ff_Q[0]), |
| .out(direct_interc_9_out[0])); |
| |
| direct_interc direct_interc_10_ ( |
| .in(fabric_clk[0]), |
| .out(direct_interc_10_out[0])); |
| |
| endmodule |
| // ----- END Verilog module for ltile_phy_fabric ----- |
| |
| |
| // ----- END Physical programmable logic block Verilog module: fabric ----- |