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[/] [spacewiresystemc/] [trunk/] [altera_work/] [spw_fifo_ulight/] [ulight_fifo/] [synthesis/] [submodules/] [sequencer/] [sequencer.pre.h] - Rev 32
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#ifndef _SEQUENCER_H_ #define _SEQUENCER_H_ /* * Copyright Altera Corporation (C) 2012-2014. All rights reserved * * SPDX-License-Identifier: BSD-3-Clause * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of Altera Corporation nor the * names of its contributors may be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL ALTERA CORPORATION BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #if ENABLE_ASSERT #define ERR_IE_TEXT "Internal Error: Sub-system: %s, File: %s, Line: %d\n%s%s" extern void err_report_internal_error (const char* description, const char* module, const char* file, int line); #define ALTERA_INTERNAL_ERROR(string) {err_report_internal_error(string, "SEQ", __FILE__, __LINE__); exit(-1);} #define ALTERA_ASSERT(condition) \ if (!(condition)) { ALTERA_INTERNAL_ERROR(#condition); } #define ALTERA_INFO_ASSERT(condition,text) \ if (!(condition)) { ALTERA_INTERNAL_ERROR(text); } #else #define ALTERA_ASSERT(condition) #define ALTERA_INFO_ASSERT(condition,text) #endif #if RLDRAMII #define RW_MGR_NUM_DM_PER_WRITE_GROUP (1) #define RW_MGR_NUM_TRUE_DM_PER_WRITE_GROUP (1) #else #define RW_MGR_NUM_DM_PER_WRITE_GROUP (RW_MGR_MEM_DATA_MASK_WIDTH / RW_MGR_MEM_IF_WRITE_DQS_WIDTH) #define RW_MGR_NUM_TRUE_DM_PER_WRITE_GROUP (RW_MGR_TRUE_MEM_DATA_MASK_WIDTH / RW_MGR_MEM_IF_WRITE_DQS_WIDTH) #endif #define RW_MGR_NUM_DQS_PER_WRITE_GROUP (RW_MGR_MEM_IF_READ_DQS_WIDTH / RW_MGR_MEM_IF_WRITE_DQS_WIDTH) #define NUM_RANKS_PER_SHADOW_REG (RW_MGR_MEM_NUMBER_OF_RANKS / NUM_SHADOW_REGS) #define RW_MGR_RUN_SINGLE_GROUP BASE_RW_MGR #define RW_MGR_RUN_ALL_GROUPS BASE_RW_MGR + 0x0400 #if HARD_PHY #define RW_MGR_DI_BASE (BASE_RW_MGR + 0x0020) #else #define RW_MGR_DI_BASE (BASE_RW_MGR + 0x0010) #endif #if DDR3 #define DDR3_MR1_ODT_MASK 0xFFFFFD99 #define DDR3_MR2_ODT_MASK 0xFFFFF9FF #define DDR3_AC_MIRR_MASK 0x020A8 #if LRDIMM // USER RTT_NOM: bits {4,3,2} of the SPD = bits {9,6,2} of the MR #define LRDIMM_SPD_MR_RTT_NOM(spd_byte) \ ( (((spd_byte) & (1 << 4)) << (9-4)) \ | (((spd_byte) & (1 << 3)) << (6-3)) \ | (((spd_byte) & (1 << 2)) << (2-2))) // USER RTT_DRV: bits {1,0} of the SPD = bits {5,1} of the MR #define LRDIMM_SPD_MR_RTT_DRV(spd_byte) \ ( (((spd_byte) & (1 << 1)) << (5-1)) \ | (((spd_byte) & (1 << 0)) << (1-0))) // USER RTT_WR: bits {7,6} of the SPD = bits {10,9} of the MR #define LRDIMM_SPD_MR_RTT_WR(spd_byte) \ (((spd_byte) & (3 << 6)) << (9-6)) #endif // LRDIMM #endif // DDR3 #define RW_MGR_LOAD_CNTR_0 BASE_RW_MGR + 0x0800 #define RW_MGR_LOAD_CNTR_1 BASE_RW_MGR + 0x0804 #define RW_MGR_LOAD_CNTR_2 BASE_RW_MGR + 0x0808 #define RW_MGR_LOAD_CNTR_3 BASE_RW_MGR + 0x080C #define RW_MGR_LOAD_JUMP_ADD_0 BASE_RW_MGR + 0x0C00 #define RW_MGR_LOAD_JUMP_ADD_1 BASE_RW_MGR + 0x0C04 #define RW_MGR_LOAD_JUMP_ADD_2 BASE_RW_MGR + 0x0C08 #define RW_MGR_LOAD_JUMP_ADD_3 BASE_RW_MGR + 0x0C0C #define RW_MGR_RESET_READ_DATAPATH BASE_RW_MGR + 0x1000 #define RW_MGR_SOFT_RESET BASE_RW_MGR + 0x2000 #define RW_MGR_SET_CS_AND_ODT_MASK BASE_RW_MGR + 0x1400 #define RW_MGR_SET_ACTIVE_RANK BASE_RW_MGR + 0x2400 #define RW_MGR_LOOPBACK_MODE BASE_RW_MGR + 0x0200 #define RW_MGR_ENABLE_REFRESH BASE_RW_MGR + 0x3000 #define RW_MGR_RANK_NONE 0xFF #define RW_MGR_RANK_ALL 0x00 #define RW_MGR_ODT_MODE_OFF 0 #define RW_MGR_ODT_MODE_READ_WRITE 1 #define NUM_CALIB_REPEAT 1 #define NUM_READ_TESTS 7 #define NUM_READ_PB_TESTS 7 #define NUM_WRITE_TESTS 15 #define NUM_WRITE_PB_TESTS 31 #define PASS_ALL_BITS 1 #define PASS_ONE_BIT 0 /* calibration stages */ #define CAL_STAGE_NIL 0 #define CAL_STAGE_VFIFO 1 #define CAL_STAGE_WLEVEL 2 #define CAL_STAGE_LFIFO 3 #define CAL_STAGE_WRITES 4 #define CAL_STAGE_FULLTEST 5 #define CAL_STAGE_REFRESH 6 #define CAL_STAGE_CAL_SKIPPED 7 #define CAL_STAGE_CAL_ABORTED 8 #define CAL_STAGE_VFIFO_AFTER_WRITES 9 /* calibration substages */ #define CAL_SUBSTAGE_NIL 0 #define CAL_SUBSTAGE_GUARANTEED_READ 1 #define CAL_SUBSTAGE_DQS_EN_PHASE 2 #define CAL_SUBSTAGE_VFIFO_CENTER 3 #define CAL_SUBSTAGE_WORKING_DELAY 1 #define CAL_SUBSTAGE_LAST_WORKING_DELAY 2 #define CAL_SUBSTAGE_WLEVEL_COPY 3 #define CAL_SUBSTAGE_WRITES_CENTER 1 #define CAL_SUBSTAGE_READ_LATENCY 1 #define CAL_SUBSTAGE_REFRESH 1 #define MAX_RANKS (RW_MGR_MEM_NUMBER_OF_RANKS) #define MAX_DQS (RW_MGR_MEM_IF_WRITE_DQS_WIDTH > RW_MGR_MEM_IF_READ_DQS_WIDTH ? RW_MGR_MEM_IF_WRITE_DQS_WIDTH : RW_MGR_MEM_IF_READ_DQS_WIDTH) #define MAX_DQ (RW_MGR_MEM_DATA_WIDTH) #define MAX_DM (RW_MGR_MEM_DATA_MASK_WIDTH) /* length of VFIFO, from SW_MACROS */ #define VFIFO_SIZE (READ_VALID_FIFO_SIZE) /* Memory for data transfer between TCL scripts and NIOS. * * - First word is a command request. * - The remaining words are part of the transfer. */ /* Define the base address of each manager. */ /* MarkW: how should these base addresses be done for A-V? */ #define BASE_PTR_MGR SEQUENCER_PTR_MGR_INST_BASE #if HARD_PHY #define BASE_PHY_MGR (0x00088000) #define BASE_RW_MGR (0x00090000) #define BASE_DATA_MGR (0x00098000) #else #define BASE_PHY_MGR SEQUENCER_PHY_MGR_INST_BASE #define BASE_RW_MGR SEQUENCER_RW_MGR_INST_BASE #define BASE_DATA_MGR SEQUENCER_DATA_MGR_INST_BASE #endif #define BASE_SCC_MGR SEQUENCER_SCC_MGR_INST_BASE #define BASE_REG_FILE SEQUENCER_REG_FILE_INST_BASE #define BASE_TIMER SEQUENCER_TIMER_INST_BASE #define BASE_MMR (0x000C0000) #define BASE_TRK_MGR (0x000D0000) /* Register file addresses. */ #define REG_FILE_SIGNATURE (BASE_REG_FILE + 0x0000) #define REG_FILE_DEBUG_DATA_ADDR (BASE_REG_FILE + 0x0004) #define REG_FILE_CUR_STAGE (BASE_REG_FILE + 0x0008) #define REG_FILE_FOM (BASE_REG_FILE + 0x000C) #define REG_FILE_FAILING_STAGE (BASE_REG_FILE + 0x0010) #define REG_FILE_DEBUG1 (BASE_REG_FILE + 0x0014) #define REG_FILE_DEBUG2 (BASE_REG_FILE + 0x0018) #if TRACKING_WATCH_TEST || TRACKING_ERROR_TEST #define REG_FILE_TRK_SAMPLE_CHECK (BASE_REG_FILE + 0x003C) #elif MARGIN_VARIATION_TEST #define IO_DQS_EN_DELAY_OFFSET (IORD_32DIRECT(BASE_REG_FILE + 0x003C, 0)) #endif #if HHP_HPS #define REG_FILE_DTAPS_PER_PTAP (BASE_REG_FILE + 0x001C) #define REG_FILE_TRK_SAMPLE_COUNT (BASE_REG_FILE + 0x0020) #define REG_FILE_TRK_LONGIDLE (BASE_REG_FILE + 0x0024) #define REG_FILE_DELAYS (BASE_REG_FILE + 0x0028) #define REG_FILE_TRK_RW_MGR_ADDR (BASE_REG_FILE + 0x002C) #define REG_FILE_TRK_READ_DQS_WIDTH (BASE_REG_FILE + 0x0030) #define REG_FILE_TRK_RFSH (BASE_REG_FILE + 0x0034) #define CTRL_CONFIG_REG (BASE_MMR + 0x0000) #else /* Tracking slave addresses. */ #define TRK_DTAPS_PER_PTAP (BASE_TRK_MGR + 0x0000) #define TRK_SAMPLE_COUNT (BASE_TRK_MGR + 0x0004) #define TRK_LONGIDLE (BASE_TRK_MGR + 0x0008) #define TRK_DELAYS (BASE_TRK_MGR + 0x000C) #define TRK_RW_MGR_ADDR (BASE_TRK_MGR + 0x0010) #define TRK_READ_DQS_WIDTH (BASE_TRK_MGR + 0x0014) #define TRK_RFSH (BASE_TRK_MGR + 0x0018) #define TRK_STALL (BASE_TRK_MGR + 0x001C) #define TRK_V_POINTER (BASE_TRK_MGR + 0x0020) #define TRK_STALL_REQ_VAL (0x1) #define TRK_STALL_ACKED_VAL (0x80000000 | TRK_STALL_REQ_VAL) #endif // HHP_HPS /* PHY manager configuration registers. */ #define PHY_MGR_PHY_RLAT (BASE_PHY_MGR + 0x4000) #define PHY_MGR_RESET_MEM_STBL (BASE_PHY_MGR + 0x4004) #define PHY_MGR_MUX_SEL (BASE_PHY_MGR + 0x4008) #define PHY_MGR_CAL_STATUS (BASE_PHY_MGR + 0x400c) #define PHY_MGR_CAL_DEBUG_INFO (BASE_PHY_MGR + 0x4010) #define PHY_MGR_VFIFO_RD_EN_OVRD (BASE_PHY_MGR + 0x4014) #if CALIBRATE_BIT_SLIPS #define PHY_MGR_FR_SHIFT (BASE_PHY_MGR + 0x4020) #if MULTIPLE_AFI_WLAT #define PHY_MGR_AFI_WLAT (BASE_PHY_MGR + 0x4020 + 4*RW_MGR_MEM_IF_WRITE_DQS_WIDTH) #else #define PHY_MGR_AFI_WLAT (BASE_PHY_MGR + 0x4018) #endif #else #define PHY_MGR_AFI_WLAT (BASE_PHY_MGR + 0x4018) #endif #define PHY_MGR_AFI_RLAT (BASE_PHY_MGR + 0x401c) #define PHY_MGR_CAL_RESET (0) #define PHY_MGR_CAL_SUCCESS (1) #define PHY_MGR_CAL_FAIL (2) /* PHY manager command addresses. */ #define PHY_MGR_CMD_INC_VFIFO_FR (BASE_PHY_MGR + 0x0000) #define PHY_MGR_CMD_INC_VFIFO_HR (BASE_PHY_MGR + 0x0004) #define PHY_MGR_CMD_INC_VFIFO_HARD_PHY (BASE_PHY_MGR + 0x0004) #define PHY_MGR_CMD_FIFO_RESET (BASE_PHY_MGR + 0x0008) #define PHY_MGR_CMD_INC_VFIFO_FR_HR (BASE_PHY_MGR + 0x000C) #define PHY_MGR_CMD_INC_VFIFO_QR (BASE_PHY_MGR + 0x0010) /* PHY manager parameters. */ #define PHY_MGR_MAX_RLAT_WIDTH (BASE_PHY_MGR + 0x0000) #define PHY_MGR_MAX_AFI_WLAT_WIDTH (BASE_PHY_MGR + 0x0004) #define PHY_MGR_MAX_AFI_RLAT_WIDTH (BASE_PHY_MGR + 0x0008) #define PHY_MGR_CALIB_SKIP_STEPS (BASE_PHY_MGR + 0x000c) #define PHY_MGR_CALIB_VFIFO_OFFSET (BASE_PHY_MGR + 0x0010) #define PHY_MGR_CALIB_LFIFO_OFFSET (BASE_PHY_MGR + 0x0014) #define PHY_MGR_RDIMM (BASE_PHY_MGR + 0x0018) #define PHY_MGR_MEM_T_WL (BASE_PHY_MGR + 0x001c) #define PHY_MGR_MEM_T_RL (BASE_PHY_MGR + 0x0020) /* Data Manager */ #define DATA_MGR_DRAM_CFG (BASE_DATA_MGR + 0x0000) #define DATA_MGR_MEM_T_WL (BASE_DATA_MGR + 0x0004) #define DATA_MGR_MEM_T_ADD (BASE_DATA_MGR + 0x0008) #define DATA_MGR_MEM_T_RL (BASE_DATA_MGR + 0x000C) #define DATA_MGR_MEM_T_RFC (BASE_DATA_MGR + 0x0010) #define DATA_MGR_MEM_T_REFI (BASE_DATA_MGR + 0x0014) #define DATA_MGR_MEM_T_WR (BASE_DATA_MGR + 0x0018) #define DATA_MGR_MEM_T_MRD (BASE_DATA_MGR + 0x001C) #define DATA_MGR_COL_WIDTH (BASE_DATA_MGR + 0x0020) #define DATA_MGR_ROW_WIDTH (BASE_DATA_MGR + 0x0024) #define DATA_MGR_BANK_WIDTH (BASE_DATA_MGR + 0x0028) #define DATA_MGR_CS_WIDTH (BASE_DATA_MGR + 0x002C) #define DATA_MGR_ITF_WIDTH (BASE_DATA_MGR + 0x0030) #define DATA_MGR_DVC_WIDTH (BASE_DATA_MGR + 0x0034) #if HARD_PHY #define MEM_T_WL_ADD DATA_MGR_MEM_T_WL #define MEM_T_RL_ADD DATA_MGR_MEM_T_RL #else #define MEM_T_WL_ADD PHY_MGR_MEM_T_WL #define MEM_T_RL_ADD PHY_MGR_MEM_T_RL #endif #define CALIB_SKIP_DELAY_LOOPS (1 << 0) #define CALIB_SKIP_ALL_BITS_CHK (1 << 1) #define CALIB_SKIP_DELAY_SWEEPS (1 << 2) #define CALIB_SKIP_VFIFO (1 << 3) #define CALIB_SKIP_LFIFO (1 << 4) #define CALIB_SKIP_WLEVEL (1 << 5) #define CALIB_SKIP_WRITES (1 << 6) #define CALIB_SKIP_FULL_TEST (1 << 7) #define CALIB_SKIP_ALL (CALIB_SKIP_VFIFO | CALIB_SKIP_LFIFO | CALIB_SKIP_WLEVEL | CALIB_SKIP_WRITES | CALIB_SKIP_FULL_TEST) #define CALIB_IN_RTL_SIM (1 << 8) /* Scan chain manager command addresses */ #define WRITE_SCC_DQS_IN_DELAY(group, delay) IOWR_32DIRECT(SCC_MGR_DQS_IN_DELAY, (group) << 2, delay) #define WRITE_SCC_DQS_EN_DELAY(group, delay) IOWR_32DIRECT(SCC_MGR_DQS_EN_DELAY, (group) << 2, (delay) + IO_DQS_EN_DELAY_OFFSET) #define WRITE_SCC_DQS_EN_PHASE(group, phase) IOWR_32DIRECT(SCC_MGR_DQS_EN_PHASE, (group) << 2, phase) #define WRITE_SCC_DQDQS_OUT_PHASE(group, phase) IOWR_32DIRECT(SCC_MGR_DQDQS_OUT_PHASE, (group) << 2, phase) #define WRITE_SCC_OCT_OUT1_DELAY(group, delay) IOWR_32DIRECT(SCC_MGR_OCT_OUT1_DELAY, (group) << 2, delay) #if HHP_HPS #define WRITE_SCC_OCT_OUT2_DELAY(group, delay) #else #define WRITE_SCC_OCT_OUT2_DELAY(group, delay) IOWR_32DIRECT(SCC_MGR_OCT_OUT2_DELAY, (group) << 2, delay) #endif #if HHP_HPS #define WRITE_SCC_DQS_BYPASS(group, bypass) #else #define WRITE_SCC_DQS_BYPASS(group, bypass) IOWR_32DIRECT(SCC_MGR_DQS_BYPASS, (group) << 2, bypass) #endif #define WRITE_SCC_DQ_OUT1_DELAY(pin, delay) IOWR_32DIRECT(SCC_MGR_IO_OUT1_DELAY, (pin) << 2, delay) #if HHP_HPS #define WRITE_SCC_DQ_OUT2_DELAY(pin, delay) #else #define WRITE_SCC_DQ_OUT2_DELAY(pin, delay) IOWR_32DIRECT(SCC_MGR_IO_OUT2_DELAY, (pin) << 2, delay) #endif #define WRITE_SCC_DQ_IN_DELAY(pin, delay) IOWR_32DIRECT(SCC_MGR_IO_IN_DELAY, (pin) << 2, delay) #if HHP_HPS #define WRITE_SCC_DQ_BYPASS(pin, bypass) #else #define WRITE_SCC_DQ_BYPASS(pin, bypass) IOWR_32DIRECT(SCC_MGR_DQ_BYPASS, (pin) << 2, bypass) #endif #if HHP_HPS #define WRITE_SCC_RFIFO_MODE(pin, mode) #else #define WRITE_SCC_RFIFO_MODE(pin, mode) IOWR_32DIRECT(SCC_MGR_RFIFO_MODE, (pin) << 2, mode) #endif #if HHP_HPS #define WRITE_SCC_HHP_EXTRAS(value) IOWR_32DIRECT(SCC_MGR_HHP_GLOBALS, SCC_MGR_HHP_EXTRAS_OFFSET, value) #define WRITE_SCC_HHP_DQSE_MAP(value) IOWR_32DIRECT(SCC_MGR_HHP_GLOBALS, SCC_MGR_HHP_DQSE_MAP_OFFSET, value) #else #define WRITE_SCC_HHP_EXTRAS(value) #define WRITE_SCC_HHP_DQSE_MAP(value) #endif #define WRITE_SCC_DQS_IO_OUT1_DELAY(delay) IOWR_32DIRECT(SCC_MGR_IO_OUT1_DELAY, (RW_MGR_MEM_DQ_PER_WRITE_DQS) << 2, delay) #if HHP_HPS #define WRITE_SCC_DQS_IO_OUT2_DELAY(delay) #else #define WRITE_SCC_DQS_IO_OUT2_DELAY(delay) IOWR_32DIRECT(SCC_MGR_IO_OUT2_DELAY, (RW_MGR_MEM_DQ_PER_WRITE_DQS) << 2, delay) #endif #define WRITE_SCC_DQS_IO_IN_DELAY(delay) IOWR_32DIRECT(SCC_MGR_IO_IN_DELAY, (RW_MGR_MEM_DQ_PER_WRITE_DQS) << 2, delay) #define WRITE_SCC_DM_IO_OUT1_DELAY(pin, delay) IOWR_32DIRECT(SCC_MGR_IO_OUT1_DELAY, (RW_MGR_MEM_DQ_PER_WRITE_DQS + 1 + pin) << 2, delay) #if HHP_HPS #define WRITE_SCC_DM_IO_OUT2_DELAY(pin, delay) #else #define WRITE_SCC_DM_IO_OUT2_DELAY(pin, delay) IOWR_32DIRECT(SCC_MGR_IO_OUT2_DELAY, (RW_MGR_MEM_DQ_PER_WRITE_DQS + 1 + pin) << 2, delay) #endif #define WRITE_SCC_DM_IO_IN_DELAY(pin, delay) IOWR_32DIRECT(SCC_MGR_IO_IN_DELAY, (RW_MGR_MEM_DQ_PER_WRITE_DQS + 1 + pin) << 2, delay) #if HHP_HPS #define WRITE_SCC_DM_BYPASS(pin, bypass) #else #define WRITE_SCC_DM_BYPASS(pin, bypass) IOWR_32DIRECT(SCC_MGR_DQ_BYPASS, (RW_MGR_MEM_DQ_PER_WRITE_DQS + 1 + pin) << 2, bypass) #endif #define READ_SCC_DQS_IN_DELAY(group) IORD_32DIRECT(SCC_MGR_DQS_IN_DELAY, (group) << 2) #define READ_SCC_DQS_EN_DELAY(group) (IORD_32DIRECT(SCC_MGR_DQS_EN_DELAY, (group) << 2) - IO_DQS_EN_DELAY_OFFSET) #define READ_SCC_DQS_EN_PHASE(group) IORD_32DIRECT(SCC_MGR_DQS_EN_PHASE, (group) << 2) #define READ_SCC_DQDQS_OUT_PHASE(group) IORD_32DIRECT(SCC_MGR_DQDQS_OUT_PHASE, (group) << 2) #define READ_SCC_OCT_OUT1_DELAY(group) IORD_32DIRECT(SCC_MGR_OCT_OUT1_DELAY, (group * RW_MGR_MEM_IF_READ_DQS_WIDTH / RW_MGR_MEM_IF_WRITE_DQS_WIDTH) << 2) #if HHP_HPS #define READ_SCC_OCT_OUT2_DELAY(group) 0 #else #define READ_SCC_OCT_OUT2_DELAY(group) IORD_32DIRECT(SCC_MGR_OCT_OUT2_DELAY, (group * RW_MGR_MEM_IF_READ_DQS_WIDTH / RW_MGR_MEM_IF_WRITE_DQS_WIDTH) << 2) #endif #if HHP_HPS #define READ_SCC_DQS_BYPASS(group) 0 #else #define READ_SCC_DQS_BYPASS(group) IORD_32DIRECT(SCC_MGR_DQS_BYPASS, (group) << 2) #endif #if HHP_HPS #define READ_SCC_DQS_BYPASS(group) 0 #else #define READ_SCC_DQS_BYPASS(group) IORD_32DIRECT(SCC_MGR_DQS_BYPASS, (group) << 2) #endif #define READ_SCC_DQ_OUT1_DELAY(pin) IORD_32DIRECT(SCC_MGR_IO_OUT1_DELAY, (pin) << 2) #if HHP_HPS #define READ_SCC_DQ_OUT2_DELAY(pin) 0 #else #define READ_SCC_DQ_OUT2_DELAY(pin) IORD_32DIRECT(SCC_MGR_IO_OUT2_DELAY, (pin) << 2) #endif #define READ_SCC_DQ_IN_DELAY(pin) IORD_32DIRECT(SCC_MGR_IO_IN_DELAY, (pin) << 2) #if HHP_HPS #define READ_SCC_DQ_BYPASS(pin) 0 #else #define READ_SCC_DQ_BYPASS(pin) IOWR_32DIRECT(SCC_MGR_DQ_BYPASS, (pin) << 2) #endif #if HHP_HPS #define READ_SCC_RFIFO_MODE(pin) 0 #else #define READ_SCC_RFIFO_MODE(pin) IOWR_32DIRECT(SCC_MGR_RFIFO_MODE, (pin) << 2) #endif #define READ_SCC_DQS_IO_OUT1_DELAY() IORD_32DIRECT(SCC_MGR_IO_OUT1_DELAY, (RW_MGR_MEM_DQ_PER_WRITE_DQS) << 2) #if HHP_HPS #define READ_SCC_DQS_IO_OUT2_DELAY() 0 #else #define READ_SCC_DQS_IO_OUT2_DELAY() IORD_32DIRECT(SCC_MGR_IO_OUT2_DELAY, (RW_MGR_MEM_DQ_PER_WRITE_DQS) << 2) #endif #define READ_SCC_DQS_IO_IN_DELAY() IORD_32DIRECT(SCC_MGR_IO_IN_DELAY, (RW_MGR_MEM_DQ_PER_WRITE_DQS) << 2) #define READ_SCC_DM_IO_OUT1_DELAY(pin) IORD_32DIRECT(SCC_MGR_IO_OUT1_DELAY, (RW_MGR_MEM_DQ_PER_WRITE_DQS + 1 + pin) << 2) #if HHP_HPS #define READ_SCC_DM_IO_OUT2_DELAY(pin) 0 #else #define READ_SCC_DM_IO_OUT2_DELAY(pin) IORD_32DIRECT(SCC_MGR_IO_OUT2_DELAY, (RW_MGR_MEM_DQ_PER_WRITE_DQS + 1 + pin) << 2) #endif #define READ_SCC_DM_IO_IN_DELAY(pin) IORD_32DIRECT(SCC_MGR_IO_IN_DELAY, (RW_MGR_MEM_DQ_PER_WRITE_DQS + 1 + pin) << 2) #if HHP_HPS #define READ_SCC_DM_BYPASS(pin) 0 #else #define READ_SCC_DM_BYPASS(pin) IOWR_32DIRECT(SCC_MGR_DQ_BYPASS, (RW_MGR_MEM_DQ_PER_WRITE_DQS + 1 + pin) << 2) #endif #define SCC_MGR_GROUP_COUNTER (BASE_SCC_MGR + 0x0000) #define SCC_MGR_DQS_IN_DELAY (BASE_SCC_MGR + 0x0100) #define SCC_MGR_DQS_EN_PHASE (BASE_SCC_MGR + 0x0200) #define SCC_MGR_DQS_EN_DELAY (BASE_SCC_MGR + 0x0300) #define SCC_MGR_DQDQS_OUT_PHASE (BASE_SCC_MGR + 0x0400) #define SCC_MGR_OCT_OUT1_DELAY (BASE_SCC_MGR + 0x0500) #if !HHP_HPS #define SCC_MGR_OCT_OUT2_DELAY (BASE_SCC_MGR + 0x0600) #endif #define SCC_MGR_IO_OUT1_DELAY (BASE_SCC_MGR + 0x0700) #if !HHP_HPS #define SCC_MGR_IO_OUT2_DELAY (BASE_SCC_MGR + 0x0800) #endif #define SCC_MGR_IO_IN_DELAY (BASE_SCC_MGR + 0x0900) #if !HHP_HPS /* ACV-specific commands */ #define SCC_MGR_DQS_BYPASS (BASE_SCC_MGR + 0x0A00) #define SCC_MGR_DQ_BYPASS (BASE_SCC_MGR + 0x0B00) #define SCC_MGR_RFIFO_MODE (BASE_SCC_MGR + 0x0C00) #endif #if HHP_HPS /* HHP-HPS-specific versions of some commands */ #define SCC_MGR_DQS_EN_DELAY_GATE (BASE_SCC_MGR + 0x0600) #define SCC_MGR_IO_OE_DELAY (BASE_SCC_MGR + 0x0800) #define SCC_MGR_HHP_GLOBALS (BASE_SCC_MGR + 0x0A00) #define SCC_MGR_HHP_RFILE (BASE_SCC_MGR + 0x0B00) #endif /* HHP-HPS-specific values */ #define SCC_MGR_HHP_EXTRAS_OFFSET 0 #define SCC_MGR_HHP_DQSE_MAP_OFFSET 1 #define SCC_MGR_DQS_ENA (BASE_SCC_MGR + 0x0E00) #define SCC_MGR_DQS_IO_ENA (BASE_SCC_MGR + 0x0E04) #define SCC_MGR_DQ_ENA (BASE_SCC_MGR + 0x0E08) #define SCC_MGR_DM_ENA (BASE_SCC_MGR + 0x0E0C) #define SCC_MGR_UPD (BASE_SCC_MGR + 0x0E20) #define SCC_MGR_ACTIVE_RANK (BASE_SCC_MGR + 0x0E40) #define SCC_MGR_AFI_CAL_INIT (BASE_SCC_MGR + 0x0D00) // PHY Debug mode flag constants #define PHY_DEBUG_IN_DEBUG_MODE 0x00000001 #define PHY_DEBUG_ENABLE_CAL_RPT 0x00000002 #define PHY_DEBUG_ENABLE_MARGIN_RPT 0x00000004 #define PHY_DEBUG_SWEEP_ALL_GROUPS 0x00000008 #define PHY_DEBUG_DISABLE_GUARANTEED_READ 0x00000010 #define PHY_DEBUG_ENABLE_NON_DESTRUCTIVE_CALIBRATION 0x00000020 // Init and Reset delay constants - Only use if defined by sequencer_defines.h, // otherwise, revert to defaults // Default for Tinit = (0+1) * ((202+1) * (2 * 131 + 1) + 1) = 53532 = 200.75us @ 266MHz #ifdef TINIT_CNTR0_VAL #define SEQ_TINIT_CNTR0_VAL TINIT_CNTR0_VAL #else #define SEQ_TINIT_CNTR0_VAL 0 #endif #ifdef TINIT_CNTR1_VAL #define SEQ_TINIT_CNTR1_VAL TINIT_CNTR1_VAL #else #define SEQ_TINIT_CNTR1_VAL 202 #endif #ifdef TINIT_CNTR2_VAL #define SEQ_TINIT_CNTR2_VAL TINIT_CNTR2_VAL #else #define SEQ_TINIT_CNTR2_VAL 131 #endif // Default for Treset = (2+1) * ((252+1) * (2 * 131 + 1) + 1) = 133563 = 500.86us @ 266MHz #ifdef TRESET_CNTR0_VAL #define SEQ_TRESET_CNTR0_VAL TRESET_CNTR0_VAL #else #define SEQ_TRESET_CNTR0_VAL 2 #endif #ifdef TRESET_CNTR1_VAL #define SEQ_TRESET_CNTR1_VAL TRESET_CNTR1_VAL #else #define SEQ_TRESET_CNTR1_VAL 252 #endif #ifdef TRESET_CNTR2_VAL #define SEQ_TRESET_CNTR2_VAL TRESET_CNTR2_VAL #else #define SEQ_TRESET_CNTR2_VAL 131 #endif /* Bitfield type changes depending on protocol */ #if QDRII typedef long long t_btfld; #else typedef alt_u32 t_btfld; #endif #define RW_MGR_INST_ROM_WRITE BASE_RW_MGR + 0x1800 #define RW_MGR_AC_ROM_WRITE BASE_RW_MGR + 0x1C00 extern const alt_u32 inst_rom_init_size; extern const alt_u32 inst_rom_init[]; extern const alt_u32 ac_rom_init_size; extern const alt_u32 ac_rom_init[]; /* parameter variable holder */ typedef struct param_type { t_btfld dm_correct_mask; t_btfld read_correct_mask; t_btfld read_correct_mask_vg; t_btfld write_correct_mask; t_btfld write_correct_mask_vg; /* set a particular entry to 1 if we need to skip a particular rank */ alt_u32 skip_ranks[MAX_RANKS]; /* set a particular entry to 1 if we need to skip a particular group */ alt_u32 skip_groups; /* set a particular entry to 1 if the shadow register (which represents a set of ranks) needs to be skipped */ alt_u32 skip_shadow_regs[NUM_SHADOW_REGS]; } param_t; /* global variable holder */ typedef struct gbl_type { alt_u32 phy_debug_mode_flags; /* current read latency */ alt_u32 curr_read_lat; /* current write latency */ alt_u32 curr_write_lat; /* error code */ alt_u32 error_substage; alt_u32 error_stage; alt_u32 error_group; /* figure-of-merit in, figure-of-merit out */ alt_u32 fom_in; alt_u32 fom_out; //USER Number of RW Mgr NOP cycles between write command and write data #if MULTIPLE_AFI_WLAT alt_u32 rw_wl_nop_cycles_per_group[RW_MGR_MEM_IF_WRITE_DQS_WIDTH]; #endif alt_u32 rw_wl_nop_cycles; } gbl_t; // External global variables extern gbl_t *gbl; extern param_t *param; // External functions alt_u32 rw_mgr_mem_calibrate_full_test (alt_u32 min_correct, t_btfld *bit_chk, alt_u32 test_dm); #if ENABLE_NON_DES_CAL extern alt_u32 run_mem_calibrate (alt_u32 enable_non_des_c); #else extern alt_u32 run_mem_calibrate (void); #endif extern void rw_mgr_mem_calibrate_eye_diag_aid (void); extern void rw_mgr_load_mrs_calib (void); extern void rw_mgr_load_mrs_exec (void); extern void rw_mgr_mem_initialize (void); extern void rw_mgr_mem_dll_lock_wait(void); extern inline void scc_mgr_set_dq_in_delay (alt_u32 write_group, alt_u32 dq_in_group, alt_u32 delay); extern inline void scc_mgr_set_dq_out1_delay (alt_u32 write_group, alt_u32 dq_in_group, alt_u32 delay); extern inline void scc_mgr_set_dq_out2_delay (alt_u32 write_group, alt_u32 dq_in_group, alt_u32 delay); extern inline void scc_mgr_load_dq (alt_u32 dq_in_group); extern inline void scc_mgr_set_dqs_bus_in_delay (alt_u32 read_group, alt_u32 delay); extern inline void scc_mgr_load_dqs (alt_u32 dqs); extern void scc_mgr_set_group_dqs_io_and_oct_out1_gradual (alt_u32 write_group, alt_u32 delay); extern void scc_mgr_set_group_dqs_io_and_oct_out2_gradual (alt_u32 write_group, alt_u32 delay); extern void scc_mgr_set_dqs_en_delay_all_ranks (alt_u32 read_group, alt_u32 delay); extern void scc_mgr_set_dqs_en_phase_all_ranks (alt_u32 read_group, alt_u32 phase); extern void scc_mgr_set_dqdqs_output_phase_all_ranks (alt_u32 write_group, alt_u32 phase); extern inline void scc_mgr_set_dm_out1_delay (alt_u32 write_group, alt_u32 dm, alt_u32 delay); extern inline void scc_mgr_set_dm_out2_delay (alt_u32 write_group, alt_u32 dm, alt_u32 delay); extern inline void scc_mgr_load_dm (alt_u32 dm); extern void rw_mgr_incr_vfifo_auto(alt_u32 grp); extern void rw_mgr_decr_vfifo_auto(alt_u32 grp); #if HPS_HW extern int sdram_calibration(void); #endif #endif