--altsyncram ACF_BLOCK_RAM_AND_MLAB_EQUIVALENT_PAUSED_READ_CAPABILITIES="CARE" ADDRESS_ACLR_A="NONE" ADDRESS_ACLR_B="NONE" ADDRESS_REG_B="CLOCK0" CBX_DECLARE_ALL_CONNECTED_PORTS="OFF" CYCLONEII_M4K_COMPATIBILITY="ON" DEVICE_FAMILY="Cyclone V" INDATA_ACLR_A="NONE" LOW_POWER_MODE="AUTO" NUMWORDS_A=16384 NUMWORDS_B=16384 OPERATION_MODE="DUAL_PORT" OUTDATA_ACLR_B="NONE" OUTDATA_REG_B="UNREGISTERED" RDCONTROL_REG_B="CLOCK0" READ_DURING_WRITE_MODE_MIXED_PORTS="OLD_DATA" WIDTH_A=8 WIDTH_B=8 WIDTHAD_A=14 WIDTHAD_B=14 WRCONTROL_ACLR_A="NONE" address_a address_b clock0 data_a q_b rden_b wren_a CARRY_CHAIN="MANUAL" CARRY_CHAIN_LENGTH=48 --VERSION_BEGIN 22.1 cbx_altera_syncram_nd_impl 2022:10:25:15:32:10:SC cbx_altsyncram 2022:10:25:15:32:10:SC cbx_cycloneii 2022:10:25:15:32:10:SC cbx_lpm_add_sub 2022:10:25:15:32:10:SC cbx_lpm_compare 2022:10:25:15:32:10:SC cbx_lpm_decode 2022:10:25:15:32:10:SC cbx_lpm_mux 2022:10:25:15:32:10:SC cbx_mgl 2022:10:25:15:42:35:SC cbx_nadder 2022:10:25:15:32:10:SC cbx_stratix 2022:10:25:15:32:10:SC cbx_stratixii 2022:10:25:15:32:10:SC cbx_stratixiii 2022:10:25:15:32:10:SC cbx_stratixv 2022:10:25:15:32:10:SC cbx_util_mgl 2022:10:25:15:32:10:SC VERSION_END -- Copyright (C) 2022 Intel Corporation. All rights reserved. -- Your use of Intel Corporation's design tools, logic functions -- and other software and tools, and any partner logic -- functions, and any output files from any of the foregoing -- (including device programming or simulation files), and any -- associated documentation or information are expressly subject -- to the terms and conditions of the Intel Program License -- Subscription Agreement, the Intel Quartus Prime License Agreement, -- the Intel FPGA IP License Agreement, or other applicable license -- agreement, including, without limitation, that your use is for -- the sole purpose of programming logic devices manufactured by -- Intel and sold by Intel or its authorized distributors. Please -- refer to the applicable agreement for further details, at -- https://fpgasoftware.intel.com/eula. FUNCTION decode_5la (data[0..0], enable) RETURNS ( eq[1..0]); FUNCTION mux_lfb (data[15..0], sel[0..0]) RETURNS ( result[7..0]); FUNCTION cyclonev_ram_block (clk0, clk1, clr0, clr1, ena0, ena1, ena2, ena3, portaaddr[PORT_A_ADDRESS_WIDTH-1..0], portaaddrstall, portabyteenamasks[PORT_A_BYTE_ENABLE_MASK_WIDTH-1..0], portadatain[PORT_A_DATA_WIDTH-1..0], portare, portawe, portbaddr[PORT_B_ADDRESS_WIDTH-1..0], portbaddrstall, portbbyteenamasks[PORT_B_BYTE_ENABLE_MASK_WIDTH-1..0], portbdatain[PORT_B_DATA_WIDTH-1..0], portbre, portbwe) WITH ( CLK0_CORE_CLOCK_ENABLE, CLK0_INPUT_CLOCK_ENABLE, CLK0_OUTPUT_CLOCK_ENABLE, CLK1_CORE_CLOCK_ENABLE, CLK1_INPUT_CLOCK_ENABLE, CLK1_OUTPUT_CLOCK_ENABLE, CONNECTIVITY_CHECKING, DATA_INTERLEAVE_OFFSET_IN_BITS, DATA_INTERLEAVE_WIDTH_IN_BITS, DONT_POWER_OPTIMIZE, ENABLE_ECC, INIT_FILE, INIT_FILE_LAYOUT, LOGICAL_RAM_NAME, mem_init0, mem_init1, mem_init10, mem_init11, mem_init12, mem_init13, mem_init14, mem_init15, mem_init16, mem_init17, mem_init18, mem_init19, mem_init2, mem_init20, mem_init21, mem_init22, mem_init23, mem_init24, mem_init25, mem_init26, mem_init27, mem_init28, mem_init29, mem_init3, mem_init30, mem_init31, mem_init32, mem_init33, mem_init34, mem_init35, mem_init36, mem_init37, mem_init38, mem_init39, mem_init4, mem_init40, mem_init41, mem_init42, mem_init43, mem_init44, mem_init45, mem_init46, mem_init47, mem_init48, mem_init49, mem_init5, mem_init50, mem_init51, mem_init52, mem_init53, mem_init54, mem_init55, mem_init56, mem_init57, mem_init58, mem_init59, mem_init6, mem_init60, mem_init61, mem_init62, mem_init63, mem_init64, mem_init65, mem_init66, mem_init67, mem_init68, mem_init69, mem_init7, mem_init70, mem_init71, mem_init8, mem_init9, MIXED_PORT_FEED_THROUGH_MODE, OPERATION_MODE, PORT_A_ADDRESS_CLEAR, PORT_A_ADDRESS_WIDTH = 1, PORT_A_BYTE_ENABLE_MASK_WIDTH = 1, PORT_A_BYTE_SIZE, PORT_A_DATA_OUT_CLEAR, PORT_A_DATA_OUT_CLOCK, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS, PORT_A_FIRST_BIT_NUMBER, PORT_A_LAST_ADDRESS, PORT_A_LOGICAL_RAM_DEPTH, PORT_A_LOGICAL_RAM_WIDTH, PORT_A_READ_DURING_WRITE_MODE, PORT_B_ADDRESS_CLEAR, PORT_B_ADDRESS_CLOCK, PORT_B_ADDRESS_WIDTH = 1, PORT_B_BYTE_ENABLE_CLOCK, PORT_B_BYTE_ENABLE_MASK_WIDTH = 1, PORT_B_BYTE_SIZE, PORT_B_DATA_IN_CLOCK, PORT_B_DATA_OUT_CLEAR, PORT_B_DATA_OUT_CLOCK, PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS, PORT_B_FIRST_BIT_NUMBER, PORT_B_LAST_ADDRESS, PORT_B_LOGICAL_RAM_DEPTH, PORT_B_LOGICAL_RAM_WIDTH, PORT_B_READ_DURING_WRITE_MODE, PORT_B_READ_ENABLE_CLOCK, PORT_B_WRITE_ENABLE_CLOCK, POWER_UP_UNINITIALIZED, RAM_BLOCK_TYPE, WIDTH_ECCSTATUS = 3) RETURNS ( dftout[8..0], eccstatus[WIDTH_ECCSTATUS-1..0], portadataout[PORT_A_DATA_WIDTH-1..0], portbdataout[PORT_B_DATA_WIDTH-1..0]); --synthesis_resources = lut 4 M10K 16 reg 1 OPTIONS ALTERA_INTERNAL_OPTION = "OPTIMIZE_POWER_DURING_SYNTHESIS=NORMAL_COMPILATION"; SUBDESIGN altsyncram_2aq1 ( address_a[13..0] : input; address_b[13..0] : input; clock0 : input; data_a[7..0] : input; q_b[7..0] : output; rden_b : input; wren_a : input; ) VARIABLE address_reg_b[0..0] : dffe; decode2 : decode_5la; mux3 : mux_lfb; ram_block1a0 : cyclonev_ram_block WITH ( CLK0_CORE_CLOCK_ENABLE = "none", CLK0_INPUT_CLOCK_ENABLE = "none", CONNECTIVITY_CHECKING = "OFF", LOGICAL_RAM_NAME = "ALTSYNCRAM", MIXED_PORT_FEED_THROUGH_MODE = "old", OPERATION_MODE = "dual_port", PORT_A_ADDRESS_WIDTH = 13, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS = 0, PORT_A_FIRST_BIT_NUMBER = 0, PORT_A_LAST_ADDRESS = 8191, PORT_A_LOGICAL_RAM_DEPTH = 16384, PORT_A_LOGICAL_RAM_WIDTH = 8, PORT_B_ADDRESS_CLEAR = "none", PORT_B_ADDRESS_CLOCK = "clock0", PORT_B_ADDRESS_WIDTH = 13, PORT_B_DATA_OUT_CLEAR = "none", PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS = 0, PORT_B_FIRST_BIT_NUMBER = 0, PORT_B_LAST_ADDRESS = 8191, PORT_B_LOGICAL_RAM_DEPTH = 16384, PORT_B_LOGICAL_RAM_WIDTH = 8, PORT_B_READ_ENABLE_CLOCK = "clock0", RAM_BLOCK_TYPE = "AUTO" ); ram_block1a1 : cyclonev_ram_block WITH ( CLK0_CORE_CLOCK_ENABLE = "none", CLK0_INPUT_CLOCK_ENABLE = "none", CONNECTIVITY_CHECKING = "OFF", LOGICAL_RAM_NAME = "ALTSYNCRAM", MIXED_PORT_FEED_THROUGH_MODE = "old", OPERATION_MODE = "dual_port", PORT_A_ADDRESS_WIDTH = 13, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS = 0, PORT_A_FIRST_BIT_NUMBER = 1, PORT_A_LAST_ADDRESS = 8191, PORT_A_LOGICAL_RAM_DEPTH = 16384, PORT_A_LOGICAL_RAM_WIDTH = 8, PORT_B_ADDRESS_CLEAR = "none", PORT_B_ADDRESS_CLOCK = "clock0", PORT_B_ADDRESS_WIDTH = 13, PORT_B_DATA_OUT_CLEAR = "none", PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS = 0, PORT_B_FIRST_BIT_NUMBER = 1, PORT_B_LAST_ADDRESS = 8191, PORT_B_LOGICAL_RAM_DEPTH = 16384, PORT_B_LOGICAL_RAM_WIDTH = 8, PORT_B_READ_ENABLE_CLOCK = "clock0", RAM_BLOCK_TYPE = "AUTO" ); ram_block1a2 : cyclonev_ram_block WITH ( CLK0_CORE_CLOCK_ENABLE = "none", CLK0_INPUT_CLOCK_ENABLE = "none", CONNECTIVITY_CHECKING = "OFF", LOGICAL_RAM_NAME = "ALTSYNCRAM", MIXED_PORT_FEED_THROUGH_MODE = "old", OPERATION_MODE = "dual_port", PORT_A_ADDRESS_WIDTH = 13, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS = 0, PORT_A_FIRST_BIT_NUMBER = 2, PORT_A_LAST_ADDRESS = 8191, PORT_A_LOGICAL_RAM_DEPTH = 16384, PORT_A_LOGICAL_RAM_WIDTH = 8, PORT_B_ADDRESS_CLEAR = "none", PORT_B_ADDRESS_CLOCK = "clock0", PORT_B_ADDRESS_WIDTH = 13, PORT_B_DATA_OUT_CLEAR = "none", PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS = 0, PORT_B_FIRST_BIT_NUMBER = 2, PORT_B_LAST_ADDRESS = 8191, PORT_B_LOGICAL_RAM_DEPTH = 16384, PORT_B_LOGICAL_RAM_WIDTH = 8, PORT_B_READ_ENABLE_CLOCK = "clock0", RAM_BLOCK_TYPE = "AUTO" ); ram_block1a3 : cyclonev_ram_block WITH ( CLK0_CORE_CLOCK_ENABLE = "none", CLK0_INPUT_CLOCK_ENABLE = "none", CONNECTIVITY_CHECKING = "OFF", LOGICAL_RAM_NAME = "ALTSYNCRAM", MIXED_PORT_FEED_THROUGH_MODE = "old", OPERATION_MODE = "dual_port", PORT_A_ADDRESS_WIDTH = 13, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS = 0, PORT_A_FIRST_BIT_NUMBER = 3, PORT_A_LAST_ADDRESS = 8191, PORT_A_LOGICAL_RAM_DEPTH = 16384, PORT_A_LOGICAL_RAM_WIDTH = 8, PORT_B_ADDRESS_CLEAR = "none", PORT_B_ADDRESS_CLOCK = "clock0", PORT_B_ADDRESS_WIDTH = 13, PORT_B_DATA_OUT_CLEAR = "none", PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS = 0, PORT_B_FIRST_BIT_NUMBER = 3, PORT_B_LAST_ADDRESS = 8191, PORT_B_LOGICAL_RAM_DEPTH = 16384, PORT_B_LOGICAL_RAM_WIDTH = 8, PORT_B_READ_ENABLE_CLOCK = "clock0", RAM_BLOCK_TYPE = "AUTO" ); ram_block1a4 : cyclonev_ram_block WITH ( CLK0_CORE_CLOCK_ENABLE = "none", CLK0_INPUT_CLOCK_ENABLE = "none", CONNECTIVITY_CHECKING = "OFF", LOGICAL_RAM_NAME = "ALTSYNCRAM", MIXED_PORT_FEED_THROUGH_MODE = "old", OPERATION_MODE = "dual_port", PORT_A_ADDRESS_WIDTH = 13, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS = 0, PORT_A_FIRST_BIT_NUMBER = 4, PORT_A_LAST_ADDRESS = 8191, PORT_A_LOGICAL_RAM_DEPTH = 16384, PORT_A_LOGICAL_RAM_WIDTH = 8, PORT_B_ADDRESS_CLEAR = "none", PORT_B_ADDRESS_CLOCK = "clock0", PORT_B_ADDRESS_WIDTH = 13, PORT_B_DATA_OUT_CLEAR = "none", PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS = 0, PORT_B_FIRST_BIT_NUMBER = 4, PORT_B_LAST_ADDRESS = 8191, PORT_B_LOGICAL_RAM_DEPTH = 16384, PORT_B_LOGICAL_RAM_WIDTH = 8, PORT_B_READ_ENABLE_CLOCK = "clock0", RAM_BLOCK_TYPE = "AUTO" ); ram_block1a5 : cyclonev_ram_block WITH ( CLK0_CORE_CLOCK_ENABLE = "none", CLK0_INPUT_CLOCK_ENABLE = "none", CONNECTIVITY_CHECKING = "OFF", LOGICAL_RAM_NAME = "ALTSYNCRAM", MIXED_PORT_FEED_THROUGH_MODE = "old", OPERATION_MODE = "dual_port", PORT_A_ADDRESS_WIDTH = 13, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS = 0, PORT_A_FIRST_BIT_NUMBER = 5, PORT_A_LAST_ADDRESS = 8191, PORT_A_LOGICAL_RAM_DEPTH = 16384, PORT_A_LOGICAL_RAM_WIDTH = 8, PORT_B_ADDRESS_CLEAR = "none", PORT_B_ADDRESS_CLOCK = "clock0", PORT_B_ADDRESS_WIDTH = 13, PORT_B_DATA_OUT_CLEAR = "none", PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS = 0, PORT_B_FIRST_BIT_NUMBER = 5, PORT_B_LAST_ADDRESS = 8191, PORT_B_LOGICAL_RAM_DEPTH = 16384, PORT_B_LOGICAL_RAM_WIDTH = 8, PORT_B_READ_ENABLE_CLOCK = "clock0", RAM_BLOCK_TYPE = "AUTO" ); ram_block1a6 : cyclonev_ram_block WITH ( CLK0_CORE_CLOCK_ENABLE = "none", CLK0_INPUT_CLOCK_ENABLE = "none", CONNECTIVITY_CHECKING = "OFF", LOGICAL_RAM_NAME = "ALTSYNCRAM", MIXED_PORT_FEED_THROUGH_MODE = "old", OPERATION_MODE = "dual_port", PORT_A_ADDRESS_WIDTH = 13, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS = 0, PORT_A_FIRST_BIT_NUMBER = 6, PORT_A_LAST_ADDRESS = 8191, PORT_A_LOGICAL_RAM_DEPTH = 16384, PORT_A_LOGICAL_RAM_WIDTH = 8, PORT_B_ADDRESS_CLEAR = "none", PORT_B_ADDRESS_CLOCK = "clock0", PORT_B_ADDRESS_WIDTH = 13, PORT_B_DATA_OUT_CLEAR = "none", PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS = 0, PORT_B_FIRST_BIT_NUMBER = 6, PORT_B_LAST_ADDRESS = 8191, PORT_B_LOGICAL_RAM_DEPTH = 16384, PORT_B_LOGICAL_RAM_WIDTH = 8, PORT_B_READ_ENABLE_CLOCK = "clock0", RAM_BLOCK_TYPE = "AUTO" ); ram_block1a7 : cyclonev_ram_block WITH ( CLK0_CORE_CLOCK_ENABLE = "none", CLK0_INPUT_CLOCK_ENABLE = "none", CONNECTIVITY_CHECKING = "OFF", LOGICAL_RAM_NAME = "ALTSYNCRAM", MIXED_PORT_FEED_THROUGH_MODE = "old", OPERATION_MODE = "dual_port", PORT_A_ADDRESS_WIDTH = 13, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS = 0, PORT_A_FIRST_BIT_NUMBER = 7, PORT_A_LAST_ADDRESS = 8191, PORT_A_LOGICAL_RAM_DEPTH = 16384, PORT_A_LOGICAL_RAM_WIDTH = 8, PORT_B_ADDRESS_CLEAR = "none", PORT_B_ADDRESS_CLOCK = "clock0", PORT_B_ADDRESS_WIDTH = 13, PORT_B_DATA_OUT_CLEAR = "none", PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS = 0, PORT_B_FIRST_BIT_NUMBER = 7, PORT_B_LAST_ADDRESS = 8191, PORT_B_LOGICAL_RAM_DEPTH = 16384, PORT_B_LOGICAL_RAM_WIDTH = 8, PORT_B_READ_ENABLE_CLOCK = "clock0", RAM_BLOCK_TYPE = "AUTO" ); ram_block1a8 : cyclonev_ram_block WITH ( CLK0_CORE_CLOCK_ENABLE = "none", CLK0_INPUT_CLOCK_ENABLE = "none", CONNECTIVITY_CHECKING = "OFF", LOGICAL_RAM_NAME = "ALTSYNCRAM", MIXED_PORT_FEED_THROUGH_MODE = "old", OPERATION_MODE = "dual_port", PORT_A_ADDRESS_WIDTH = 13, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS = 8192, PORT_A_FIRST_BIT_NUMBER = 0, PORT_A_LAST_ADDRESS = 16383, PORT_A_LOGICAL_RAM_DEPTH = 16384, PORT_A_LOGICAL_RAM_WIDTH = 8, PORT_B_ADDRESS_CLEAR = "none", PORT_B_ADDRESS_CLOCK = "clock0", PORT_B_ADDRESS_WIDTH = 13, PORT_B_DATA_OUT_CLEAR = "none", PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS = 8192, PORT_B_FIRST_BIT_NUMBER = 0, PORT_B_LAST_ADDRESS = 16383, PORT_B_LOGICAL_RAM_DEPTH = 16384, PORT_B_LOGICAL_RAM_WIDTH = 8, PORT_B_READ_ENABLE_CLOCK = "clock0", RAM_BLOCK_TYPE = "AUTO" ); ram_block1a9 : cyclonev_ram_block WITH ( CLK0_CORE_CLOCK_ENABLE = "none", CLK0_INPUT_CLOCK_ENABLE = "none", CONNECTIVITY_CHECKING = "OFF", LOGICAL_RAM_NAME = "ALTSYNCRAM", MIXED_PORT_FEED_THROUGH_MODE = "old", OPERATION_MODE = "dual_port", PORT_A_ADDRESS_WIDTH = 13, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS = 8192, PORT_A_FIRST_BIT_NUMBER = 1, PORT_A_LAST_ADDRESS = 16383, PORT_A_LOGICAL_RAM_DEPTH = 16384, PORT_A_LOGICAL_RAM_WIDTH = 8, PORT_B_ADDRESS_CLEAR = "none", PORT_B_ADDRESS_CLOCK = "clock0", PORT_B_ADDRESS_WIDTH = 13, PORT_B_DATA_OUT_CLEAR = "none", PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS = 8192, PORT_B_FIRST_BIT_NUMBER = 1, PORT_B_LAST_ADDRESS = 16383, PORT_B_LOGICAL_RAM_DEPTH = 16384, PORT_B_LOGICAL_RAM_WIDTH = 8, PORT_B_READ_ENABLE_CLOCK = "clock0", RAM_BLOCK_TYPE = "AUTO" ); ram_block1a10 : cyclonev_ram_block WITH ( CLK0_CORE_CLOCK_ENABLE = "none", CLK0_INPUT_CLOCK_ENABLE = "none", CONNECTIVITY_CHECKING = "OFF", LOGICAL_RAM_NAME = "ALTSYNCRAM", MIXED_PORT_FEED_THROUGH_MODE = "old", OPERATION_MODE = "dual_port", PORT_A_ADDRESS_WIDTH = 13, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS = 8192, PORT_A_FIRST_BIT_NUMBER = 2, PORT_A_LAST_ADDRESS = 16383, PORT_A_LOGICAL_RAM_DEPTH = 16384, PORT_A_LOGICAL_RAM_WIDTH = 8, PORT_B_ADDRESS_CLEAR = "none", PORT_B_ADDRESS_CLOCK = "clock0", PORT_B_ADDRESS_WIDTH = 13, PORT_B_DATA_OUT_CLEAR = "none", PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS = 8192, PORT_B_FIRST_BIT_NUMBER = 2, PORT_B_LAST_ADDRESS = 16383, PORT_B_LOGICAL_RAM_DEPTH = 16384, PORT_B_LOGICAL_RAM_WIDTH = 8, PORT_B_READ_ENABLE_CLOCK = "clock0", RAM_BLOCK_TYPE = "AUTO" ); ram_block1a11 : cyclonev_ram_block WITH ( CLK0_CORE_CLOCK_ENABLE = "none", CLK0_INPUT_CLOCK_ENABLE = "none", CONNECTIVITY_CHECKING = "OFF", LOGICAL_RAM_NAME = "ALTSYNCRAM", MIXED_PORT_FEED_THROUGH_MODE = "old", OPERATION_MODE = "dual_port", PORT_A_ADDRESS_WIDTH = 13, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS = 8192, PORT_A_FIRST_BIT_NUMBER = 3, PORT_A_LAST_ADDRESS = 16383, PORT_A_LOGICAL_RAM_DEPTH = 16384, PORT_A_LOGICAL_RAM_WIDTH = 8, PORT_B_ADDRESS_CLEAR = "none", PORT_B_ADDRESS_CLOCK = "clock0", PORT_B_ADDRESS_WIDTH = 13, PORT_B_DATA_OUT_CLEAR = "none", PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS = 8192, PORT_B_FIRST_BIT_NUMBER = 3, PORT_B_LAST_ADDRESS = 16383, PORT_B_LOGICAL_RAM_DEPTH = 16384, PORT_B_LOGICAL_RAM_WIDTH = 8, PORT_B_READ_ENABLE_CLOCK = "clock0", RAM_BLOCK_TYPE = "AUTO" ); ram_block1a12 : cyclonev_ram_block WITH ( CLK0_CORE_CLOCK_ENABLE = "none", CLK0_INPUT_CLOCK_ENABLE = "none", CONNECTIVITY_CHECKING = "OFF", LOGICAL_RAM_NAME = "ALTSYNCRAM", MIXED_PORT_FEED_THROUGH_MODE = "old", OPERATION_MODE = "dual_port", PORT_A_ADDRESS_WIDTH = 13, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS = 8192, PORT_A_FIRST_BIT_NUMBER = 4, PORT_A_LAST_ADDRESS = 16383, PORT_A_LOGICAL_RAM_DEPTH = 16384, PORT_A_LOGICAL_RAM_WIDTH = 8, PORT_B_ADDRESS_CLEAR = "none", PORT_B_ADDRESS_CLOCK = "clock0", PORT_B_ADDRESS_WIDTH = 13, PORT_B_DATA_OUT_CLEAR = "none", PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS = 8192, PORT_B_FIRST_BIT_NUMBER = 4, PORT_B_LAST_ADDRESS = 16383, PORT_B_LOGICAL_RAM_DEPTH = 16384, PORT_B_LOGICAL_RAM_WIDTH = 8, PORT_B_READ_ENABLE_CLOCK = "clock0", RAM_BLOCK_TYPE = "AUTO" ); ram_block1a13 : cyclonev_ram_block WITH ( CLK0_CORE_CLOCK_ENABLE = "none", CLK0_INPUT_CLOCK_ENABLE = "none", CONNECTIVITY_CHECKING = "OFF", LOGICAL_RAM_NAME = "ALTSYNCRAM", MIXED_PORT_FEED_THROUGH_MODE = "old", OPERATION_MODE = "dual_port", PORT_A_ADDRESS_WIDTH = 13, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS = 8192, PORT_A_FIRST_BIT_NUMBER = 5, PORT_A_LAST_ADDRESS = 16383, PORT_A_LOGICAL_RAM_DEPTH = 16384, PORT_A_LOGICAL_RAM_WIDTH = 8, PORT_B_ADDRESS_CLEAR = "none", PORT_B_ADDRESS_CLOCK = "clock0", PORT_B_ADDRESS_WIDTH = 13, PORT_B_DATA_OUT_CLEAR = "none", PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS = 8192, PORT_B_FIRST_BIT_NUMBER = 5, PORT_B_LAST_ADDRESS = 16383, PORT_B_LOGICAL_RAM_DEPTH = 16384, PORT_B_LOGICAL_RAM_WIDTH = 8, PORT_B_READ_ENABLE_CLOCK = "clock0", RAM_BLOCK_TYPE = "AUTO" ); ram_block1a14 : cyclonev_ram_block WITH ( CLK0_CORE_CLOCK_ENABLE = "none", CLK0_INPUT_CLOCK_ENABLE = "none", CONNECTIVITY_CHECKING = "OFF", LOGICAL_RAM_NAME = "ALTSYNCRAM", MIXED_PORT_FEED_THROUGH_MODE = "old", OPERATION_MODE = "dual_port", PORT_A_ADDRESS_WIDTH = 13, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS = 8192, PORT_A_FIRST_BIT_NUMBER = 6, PORT_A_LAST_ADDRESS = 16383, PORT_A_LOGICAL_RAM_DEPTH = 16384, PORT_A_LOGICAL_RAM_WIDTH = 8, PORT_B_ADDRESS_CLEAR = "none", PORT_B_ADDRESS_CLOCK = "clock0", PORT_B_ADDRESS_WIDTH = 13, PORT_B_DATA_OUT_CLEAR = "none", PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS = 8192, PORT_B_FIRST_BIT_NUMBER = 6, PORT_B_LAST_ADDRESS = 16383, PORT_B_LOGICAL_RAM_DEPTH = 16384, PORT_B_LOGICAL_RAM_WIDTH = 8, PORT_B_READ_ENABLE_CLOCK = "clock0", RAM_BLOCK_TYPE = "AUTO" ); ram_block1a15 : cyclonev_ram_block WITH ( CLK0_CORE_CLOCK_ENABLE = "none", CLK0_INPUT_CLOCK_ENABLE = "none", CONNECTIVITY_CHECKING = "OFF", LOGICAL_RAM_NAME = "ALTSYNCRAM", MIXED_PORT_FEED_THROUGH_MODE = "old", OPERATION_MODE = "dual_port", PORT_A_ADDRESS_WIDTH = 13, PORT_A_DATA_WIDTH = 1, PORT_A_FIRST_ADDRESS = 8192, PORT_A_FIRST_BIT_NUMBER = 7, PORT_A_LAST_ADDRESS = 16383, PORT_A_LOGICAL_RAM_DEPTH = 16384, PORT_A_LOGICAL_RAM_WIDTH = 8, PORT_B_ADDRESS_CLEAR = "none", PORT_B_ADDRESS_CLOCK = "clock0", PORT_B_ADDRESS_WIDTH = 13, PORT_B_DATA_OUT_CLEAR = "none", PORT_B_DATA_WIDTH = 1, PORT_B_FIRST_ADDRESS = 8192, PORT_B_FIRST_BIT_NUMBER = 7, PORT_B_LAST_ADDRESS = 16383, PORT_B_LOGICAL_RAM_DEPTH = 16384, PORT_B_LOGICAL_RAM_WIDTH = 8, PORT_B_READ_ENABLE_CLOCK = "clock0", RAM_BLOCK_TYPE = "AUTO" ); address_a_wire[13..0] : WIRE; address_b_sel[0..0] : WIRE; address_b_wire[13..0] : WIRE; BEGIN address_reg_b[].clk = clock0; address_reg_b[].d = address_b_sel[]; address_reg_b[].ena = rden_b; decode2.data[0..0] = address_a_wire[13..13]; decode2.enable = wren_a; mux3.data[] = ( ram_block1a[15..0].portbdataout[0..0]); mux3.sel[] = address_reg_b[].q; ram_block1a[15..0].clk0 = clock0; ram_block1a[15..0].portaaddr[] = ( address_a_wire[12..0]); ram_block1a[0].portadatain[] = ( data_a[0..0]); ram_block1a[1].portadatain[] = ( data_a[1..1]); ram_block1a[2].portadatain[] = ( data_a[2..2]); ram_block1a[3].portadatain[] = ( data_a[3..3]); ram_block1a[4].portadatain[] = ( data_a[4..4]); ram_block1a[5].portadatain[] = ( data_a[5..5]); ram_block1a[6].portadatain[] = ( data_a[6..6]); ram_block1a[7].portadatain[] = ( data_a[7..7]); ram_block1a[8].portadatain[] = ( data_a[0..0]); ram_block1a[9].portadatain[] = ( data_a[1..1]); ram_block1a[10].portadatain[] = ( data_a[2..2]); ram_block1a[11].portadatain[] = ( data_a[3..3]); ram_block1a[12].portadatain[] = ( data_a[4..4]); ram_block1a[13].portadatain[] = ( data_a[5..5]); ram_block1a[14].portadatain[] = ( data_a[6..6]); ram_block1a[15].portadatain[] = ( data_a[7..7]); ram_block1a[15..0].portawe = ( decode2.eq[1..1], decode2.eq[1..1], decode2.eq[1..1], decode2.eq[1..1], decode2.eq[1..1], decode2.eq[1..1], decode2.eq[1..1], decode2.eq[1..0], decode2.eq[0..0], decode2.eq[0..0], decode2.eq[0..0], decode2.eq[0..0], decode2.eq[0..0], decode2.eq[0..0], decode2.eq[0..0]); ram_block1a[15..0].portbaddr[] = ( address_b_wire[12..0]); ram_block1a[15..0].portbre = rden_b; address_a_wire[] = address_a[]; address_b_sel[0..0] = address_b[13..13]; address_b_wire[] = address_b[]; q_b[] = mux3.result[]; END; --VALID FILE