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Initial commit of OpenSPARC T2 design and verification files.
[OpenSPARC-T2-DV] / design / sys / iop / dmu / rtl / dmu_imu_ics_csr_imu_eqs_error_log_reg_entry.v
// ========== Copyright Header Begin ==========================================
//
// OpenSPARC T2 Processor File: dmu_imu_ics_csr_imu_eqs_error_log_reg_entry.v
// Copyright (C) 1995-2007 Sun Microsystems, Inc. All Rights Reserved
// 4150 Network Circle, Santa Clara, California 95054, U.S.A.
//
// * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
//
// This program is free software; you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation; version 2 of the License.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
//
// For the avoidance of doubt, and except that if any non-GPL license
// choice is available it will apply instead, Sun elects to use only
// the General Public License version 2 (GPLv2) at this time for any
// software where a choice of GPL license versions is made
// available with the language indicating that GPLv2 or any later version
// may be used, or where a choice of which version of the GPL is applied is
// otherwise unspecified.
//
// Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara,
// CA 95054 USA or visit www.sun.com if you need additional information or
// have any questions.
//
// ========== Copyright Header End ============================================
module dmu_imu_ics_csr_imu_eqs_error_log_reg_entry
(
// synopsys translate_off
omni_ld,
omni_data,
// synopsys translate_on
clk,
por_l,
w_ld,
csrbus_wr_data,
imu_eqs_error_log_reg_csrbus_read_data,
imu_eqs_error_log_reg_hw_ld,
imu_eqs_error_log_reg_hw_write
);
//====================================================================
// Polarity declarations
//====================================================================
// synopsys translate_off
input omni_ld; // Omni load
// vlint flag_input_port_not_connected off
input [`FIRE_DLC_IMU_ICS_CSR_IMU_EQS_ERROR_LOG_REG_WIDTH - 1:0] omni_data;
// Omni write data
// synopsys translate_on
// vlint flag_input_port_not_connected on
input clk; // Clock signal
input por_l; // Reset signal
input w_ld; // SW load
// vlint flag_input_port_not_connected off
input [`FIRE_CSRBUS_DATA_WIDTH-1:0] csrbus_wr_data; // SW write data
// vlint flag_input_port_not_connected on
output [`FIRE_DLC_IMU_ICS_CSR_IMU_EQS_ERROR_LOG_REG_WIDTH-1:0] imu_eqs_error_log_reg_csrbus_read_data;
// SW read data
input imu_eqs_error_log_reg_hw_ld; // Hardware load enable for
// imu_eqs_error_log_reg. When set, <hw
// write signal> will be loaded into
// imu_eqs_error_log_reg.
// vlint flag_input_port_not_connected off
input [`FIRE_DLC_IMU_ICS_CSR_IMU_EQS_ERROR_LOG_REG_WIDTH -1:0] imu_eqs_error_log_reg_hw_write;
// data bus for hw loading of imu_eqs_error_log_reg.
// vlint flag_input_port_not_connected on
//====================================================================
// Type declarations
//====================================================================
// synopsys translate_off
wire omni_ld; // Omni load
// vlint flag_dangling_net_within_module off
// vlint flag_net_has_no_load off
wire [`FIRE_DLC_IMU_ICS_CSR_IMU_EQS_ERROR_LOG_REG_WIDTH - 1:0] omni_data;
// Omni write data
// synopsys translate_on
// vlint flag_dangling_net_within_module on
// vlint flag_net_has_no_load on
wire clk; // Clock signal
wire por_l; // Reset signal
wire w_ld; // SW load
// vlint flag_dangling_net_within_module off
// vlint flag_net_has_no_load off
wire [`FIRE_CSRBUS_DATA_WIDTH-1:0] csrbus_wr_data; // SW write data
// vlint flag_dangling_net_within_module on
// vlint flag_net_has_no_load on
wire [`FIRE_DLC_IMU_ICS_CSR_IMU_EQS_ERROR_LOG_REG_WIDTH-1:0] imu_eqs_error_log_reg_csrbus_read_data;
// SW read data
wire imu_eqs_error_log_reg_hw_ld; // Hardware load enable for
// imu_eqs_error_log_reg. When set, <hw write
// signal> will be loaded into
// imu_eqs_error_log_reg.
// vlint flag_dangling_net_within_module off
// vlint flag_net_has_no_load off
wire [`FIRE_DLC_IMU_ICS_CSR_IMU_EQS_ERROR_LOG_REG_WIDTH -1:0] imu_eqs_error_log_reg_hw_write;
// data bus for hw loading of imu_eqs_error_log_reg.
// vlint flag_dangling_net_within_module on
// vlint flag_net_has_no_load on
//====================================================================
// Logic
//====================================================================
//----- Reset values
// verilint 531 off
wire [5:0] reset_eq_num = 6'b0;
// verilint 531 on
//----- Active high reset wires
wire por_l_active_high = ~por_l;
//====================================================
// Instantiation of flops
//====================================================
// bit 0
csr_sw csr_sw_0
(
// synopsys translate_off
.omni_ld (omni_ld),
.omni_data (omni_data[0]),
.omni_rw_alias (1'b1),
.omni_rw1c_alias (1'b0),
.omni_rw1s_alias (1'b0),
// synopsys translate_on
.rst (por_l_active_high),
.rst_val (reset_eq_num[0]),
.csr_ld (w_ld),
.csr_data (csrbus_wr_data[0]),
.rw_alias (1'b1),
.rw1c_alias (1'b0),
.rw1s_alias (1'b0),
.hw_ld (imu_eqs_error_log_reg_hw_ld),
.hw_data (imu_eqs_error_log_reg_hw_write[0]),
.cp (clk),
.q (imu_eqs_error_log_reg_csrbus_read_data[0])
);
// bit 1
csr_sw csr_sw_1
(
// synopsys translate_off
.omni_ld (omni_ld),
.omni_data (omni_data[1]),
.omni_rw_alias (1'b1),
.omni_rw1c_alias (1'b0),
.omni_rw1s_alias (1'b0),
// synopsys translate_on
.rst (por_l_active_high),
.rst_val (reset_eq_num[1]),
.csr_ld (w_ld),
.csr_data (csrbus_wr_data[1]),
.rw_alias (1'b1),
.rw1c_alias (1'b0),
.rw1s_alias (1'b0),
.hw_ld (imu_eqs_error_log_reg_hw_ld),
.hw_data (imu_eqs_error_log_reg_hw_write[1]),
.cp (clk),
.q (imu_eqs_error_log_reg_csrbus_read_data[1])
);
// bit 2
csr_sw csr_sw_2
(
// synopsys translate_off
.omni_ld (omni_ld),
.omni_data (omni_data[2]),
.omni_rw_alias (1'b1),
.omni_rw1c_alias (1'b0),
.omni_rw1s_alias (1'b0),
// synopsys translate_on
.rst (por_l_active_high),
.rst_val (reset_eq_num[2]),
.csr_ld (w_ld),
.csr_data (csrbus_wr_data[2]),
.rw_alias (1'b1),
.rw1c_alias (1'b0),
.rw1s_alias (1'b0),
.hw_ld (imu_eqs_error_log_reg_hw_ld),
.hw_data (imu_eqs_error_log_reg_hw_write[2]),
.cp (clk),
.q (imu_eqs_error_log_reg_csrbus_read_data[2])
);
// bit 3
csr_sw csr_sw_3
(
// synopsys translate_off
.omni_ld (omni_ld),
.omni_data (omni_data[3]),
.omni_rw_alias (1'b1),
.omni_rw1c_alias (1'b0),
.omni_rw1s_alias (1'b0),
// synopsys translate_on
.rst (por_l_active_high),
.rst_val (reset_eq_num[3]),
.csr_ld (w_ld),
.csr_data (csrbus_wr_data[3]),
.rw_alias (1'b1),
.rw1c_alias (1'b0),
.rw1s_alias (1'b0),
.hw_ld (imu_eqs_error_log_reg_hw_ld),
.hw_data (imu_eqs_error_log_reg_hw_write[3]),
.cp (clk),
.q (imu_eqs_error_log_reg_csrbus_read_data[3])
);
// bit 4
csr_sw csr_sw_4
(
// synopsys translate_off
.omni_ld (omni_ld),
.omni_data (omni_data[4]),
.omni_rw_alias (1'b1),
.omni_rw1c_alias (1'b0),
.omni_rw1s_alias (1'b0),
// synopsys translate_on
.rst (por_l_active_high),
.rst_val (reset_eq_num[4]),
.csr_ld (w_ld),
.csr_data (csrbus_wr_data[4]),
.rw_alias (1'b1),
.rw1c_alias (1'b0),
.rw1s_alias (1'b0),
.hw_ld (imu_eqs_error_log_reg_hw_ld),
.hw_data (imu_eqs_error_log_reg_hw_write[4]),
.cp (clk),
.q (imu_eqs_error_log_reg_csrbus_read_data[4])
);
// bit 5
csr_sw csr_sw_5
(
// synopsys translate_off
.omni_ld (omni_ld),
.omni_data (omni_data[5]),
.omni_rw_alias (1'b1),
.omni_rw1c_alias (1'b0),
.omni_rw1s_alias (1'b0),
// synopsys translate_on
.rst (por_l_active_high),
.rst_val (reset_eq_num[5]),
.csr_ld (w_ld),
.csr_data (csrbus_wr_data[5]),
.rw_alias (1'b1),
.rw1c_alias (1'b0),
.rw1s_alias (1'b0),
.hw_ld (imu_eqs_error_log_reg_hw_ld),
.hw_data (imu_eqs_error_log_reg_hw_write[5]),
.cp (clk),
.q (imu_eqs_error_log_reg_csrbus_read_data[5])
);
assign imu_eqs_error_log_reg_csrbus_read_data[6] = 1'b0; // bit 6
assign imu_eqs_error_log_reg_csrbus_read_data[7] = 1'b0; // bit 7
assign imu_eqs_error_log_reg_csrbus_read_data[8] = 1'b0; // bit 8
assign imu_eqs_error_log_reg_csrbus_read_data[9] = 1'b0; // bit 9
assign imu_eqs_error_log_reg_csrbus_read_data[10] = 1'b0; // bit 10
assign imu_eqs_error_log_reg_csrbus_read_data[11] = 1'b0; // bit 11
assign imu_eqs_error_log_reg_csrbus_read_data[12] = 1'b0; // bit 12
assign imu_eqs_error_log_reg_csrbus_read_data[13] = 1'b0; // bit 13
assign imu_eqs_error_log_reg_csrbus_read_data[14] = 1'b0; // bit 14
assign imu_eqs_error_log_reg_csrbus_read_data[15] = 1'b0; // bit 15
assign imu_eqs_error_log_reg_csrbus_read_data[16] = 1'b0; // bit 16
assign imu_eqs_error_log_reg_csrbus_read_data[17] = 1'b0; // bit 17
assign imu_eqs_error_log_reg_csrbus_read_data[18] = 1'b0; // bit 18
assign imu_eqs_error_log_reg_csrbus_read_data[19] = 1'b0; // bit 19
assign imu_eqs_error_log_reg_csrbus_read_data[20] = 1'b0; // bit 20
assign imu_eqs_error_log_reg_csrbus_read_data[21] = 1'b0; // bit 21
assign imu_eqs_error_log_reg_csrbus_read_data[22] = 1'b0; // bit 22
assign imu_eqs_error_log_reg_csrbus_read_data[23] = 1'b0; // bit 23
assign imu_eqs_error_log_reg_csrbus_read_data[24] = 1'b0; // bit 24
assign imu_eqs_error_log_reg_csrbus_read_data[25] = 1'b0; // bit 25
assign imu_eqs_error_log_reg_csrbus_read_data[26] = 1'b0; // bit 26
assign imu_eqs_error_log_reg_csrbus_read_data[27] = 1'b0; // bit 27
assign imu_eqs_error_log_reg_csrbus_read_data[28] = 1'b0; // bit 28
assign imu_eqs_error_log_reg_csrbus_read_data[29] = 1'b0; // bit 29
assign imu_eqs_error_log_reg_csrbus_read_data[30] = 1'b0; // bit 30
assign imu_eqs_error_log_reg_csrbus_read_data[31] = 1'b0; // bit 31
assign imu_eqs_error_log_reg_csrbus_read_data[32] = 1'b0; // bit 32
assign imu_eqs_error_log_reg_csrbus_read_data[33] = 1'b0; // bit 33
assign imu_eqs_error_log_reg_csrbus_read_data[34] = 1'b0; // bit 34
assign imu_eqs_error_log_reg_csrbus_read_data[35] = 1'b0; // bit 35
assign imu_eqs_error_log_reg_csrbus_read_data[36] = 1'b0; // bit 36
assign imu_eqs_error_log_reg_csrbus_read_data[37] = 1'b0; // bit 37
assign imu_eqs_error_log_reg_csrbus_read_data[38] = 1'b0; // bit 38
assign imu_eqs_error_log_reg_csrbus_read_data[39] = 1'b0; // bit 39
assign imu_eqs_error_log_reg_csrbus_read_data[40] = 1'b0; // bit 40
assign imu_eqs_error_log_reg_csrbus_read_data[41] = 1'b0; // bit 41
assign imu_eqs_error_log_reg_csrbus_read_data[42] = 1'b0; // bit 42
assign imu_eqs_error_log_reg_csrbus_read_data[43] = 1'b0; // bit 43
assign imu_eqs_error_log_reg_csrbus_read_data[44] = 1'b0; // bit 44
assign imu_eqs_error_log_reg_csrbus_read_data[45] = 1'b0; // bit 45
assign imu_eqs_error_log_reg_csrbus_read_data[46] = 1'b0; // bit 46
assign imu_eqs_error_log_reg_csrbus_read_data[47] = 1'b0; // bit 47
assign imu_eqs_error_log_reg_csrbus_read_data[48] = 1'b0; // bit 48
assign imu_eqs_error_log_reg_csrbus_read_data[49] = 1'b0; // bit 49
assign imu_eqs_error_log_reg_csrbus_read_data[50] = 1'b0; // bit 50
assign imu_eqs_error_log_reg_csrbus_read_data[51] = 1'b0; // bit 51
assign imu_eqs_error_log_reg_csrbus_read_data[52] = 1'b0; // bit 52
assign imu_eqs_error_log_reg_csrbus_read_data[53] = 1'b0; // bit 53
assign imu_eqs_error_log_reg_csrbus_read_data[54] = 1'b0; // bit 54
assign imu_eqs_error_log_reg_csrbus_read_data[55] = 1'b0; // bit 55
assign imu_eqs_error_log_reg_csrbus_read_data[56] = 1'b0; // bit 56
assign imu_eqs_error_log_reg_csrbus_read_data[57] = 1'b0; // bit 57
assign imu_eqs_error_log_reg_csrbus_read_data[58] = 1'b0; // bit 58
assign imu_eqs_error_log_reg_csrbus_read_data[59] = 1'b0; // bit 59
assign imu_eqs_error_log_reg_csrbus_read_data[60] = 1'b0; // bit 60
assign imu_eqs_error_log_reg_csrbus_read_data[61] = 1'b0; // bit 61
assign imu_eqs_error_log_reg_csrbus_read_data[62] = 1'b0; // bit 62
assign imu_eqs_error_log_reg_csrbus_read_data[63] = 1'b0; // bit 63
endmodule // dmu_imu_ics_csr_imu_eqs_error_log_reg_entry
Full OpenSPARC design & verification tarball including full HDL.