2 #include <configs/tx53.h>
3 #include <asm/arch/imx-regs.h>
5 #define DEBUG_LED_BIT 20
6 #define LED_GPIO_BASE GPIO2_BASE_ADDR
7 #define LED_MUX_OFFSET 0x174
8 #define LED_MUX_MODE 0x11
10 #define SDRAM_CLK CONFIG_SYS_SDRAM_CLK
12 #ifdef PHYS_SDRAM_2_SIZE
13 #define SDRAM_SIZE (PHYS_SDRAM_1_SIZE + PHYS_SDRAM_2_SIZE)
15 #define SDRAM_SIZE PHYS_SDRAM_1_SIZE
19 #define REG_CCGR0 0x68
20 #define REG_CCGR1 0x6c
21 #define REG_CCGR2 0x70
22 #define REG_CCGR3 0x74
23 #define REG_CCGR4 0x78
24 #define REG_CCGR5 0x7c
25 #define REG_CCGR6 0x80
26 #define REG_CCGR7 0x84
27 #define REG_CMEOR 0x88
29 #define CPU_2_BE_32(l) \
30 ((((l) << 24) & 0xFF000000) | \
31 (((l) << 8) & 0x00FF0000) | \
32 (((l) >> 8) & 0x0000FF00) | \
33 (((l) >> 24) & 0x000000FF))
36 CCM register set 0x53FD4000 0x53FD7FFF
37 EIM register set 0x63FDA000 0x63FDAFFF
38 NANDFC register set 0xF7FF0000 0xF7FFFFFF
39 IOMUX Control (IOMUXC) registers 0x53FA8000 0x53FABFFF
40 DPLLC1 register 0x63F80000 0x63F83FFF
41 DPLLC2 register 0x63F84000 0x63F87FFF
42 DPLLC3 register 0x63F88000 0x63F8BFFF
43 DPLLC4 register 0x63F8C000 0x63F8FFFF
44 ESD RAM controller register 0x63FD9000 0x63FD9FFF
45 M4IF register 0x63FD8000 0x63FD8FFF
46 DDR 0x70000000 0xEFFFFFFF
47 EIM 0xF0000000 0xF7FEFFFF
48 NANDFC Buffers 0xF7FF0000 0xF7FFFFFF
49 IRAM Free Space 0xF8006000 0xF8017FF0
50 GPU Memory 0xF8020000 0xF805FFFF
52 #define CHECK_DCD_ADDR(a) ( \
53 ((a) >= 0x53fd4000 && (a) <= 0x53fd7fff) /* CCM */ || \
54 ((a) >= 0x63fda000 && (a) <= 0x63fdafff) /* EIM (CS0) */ || \
55 ((a) >= 0x53fa8000 && (a) <= 0x53fabfff) /* IOMUXC */ || \
56 ((a) >= 0x63f80000 && (a) <= 0x63f8ffff) /* DPLLC1..4 */ || \
57 ((a) >= 0x63fd8000 && (a) <= 0x63fd9fff) /* M4IF & SDRAM Contr. */ || \
58 ((a) >= 0x70000000 && (a) <= 0xefffffff) /* SDRAM */ || \
59 ((a) >= 0xf0000000 && (a) <= 0xf7ffffff) /* EIM & NANDFC buffers */ || \
60 ((a) >= 0xf8006000 && (a) <= 0xf8017ff0) /* IRAM free space */ || \
61 ((a) >= 0xf8020000 && (a) <= 0xf805ffff) /* GPU RAM */)
63 .macro mxc_dcd_item addr, val
64 .ifne CHECK_DCD_ADDR(\addr)
65 .word CPU_2_BE_32(\addr), CPU_2_BE_32(\val)
67 .error "Address \addr not accessible from DCD"
71 #define MXC_DCD_ITEM(addr, val) mxc_dcd_item (addr), (val)
73 #define MXC_DCD_CMD_SZ_BYTE 1
74 #define MXC_DCD_CMD_SZ_SHORT 2
75 #define MXC_DCD_CMD_SZ_WORD 4
76 #define MXC_DCD_CMD_FLAG_WRITE 0x0
77 #define MXC_DCD_CMD_FLAG_CLR 0x1
78 #define MXC_DCD_CMD_FLAG_SET 0x3
79 #define MXC_DCD_CMD_FLAG_CHK_CLR ((0 << 0) | (0 << 1))
80 #define MXC_DCD_CMD_FLAG_CHK_SET ((0 << 0) | (1 << 1))
81 #define MXC_DCD_CMD_FLAG_CHK_ANY_CLR ((1 << 0) | (0 << 1))
82 #define MXC_DCD_CMD_FLAG_CHK_ANY_SET ((1 << 0) | (1 << 1))
84 #define MXC_DCD_START \
85 .word CPU_2_BE_32((0xd2 << 24) | ((dcd_end - .) << 8) | DCD_VERSION) ; \
90 .ifgt . - dcd_start - 1768
91 .error "DCD too large!"
96 #define MXC_DCD_CMD_WRT(type, flags) \
97 1: .word CPU_2_BE_32((0xcc << 24) | ((1f - .) << 8) | ((flags) << 3) | (type))
99 #define MXC_DCD_CMD_CHK(type, flags, addr, mask) \
100 1: .word CPU_2_BE_32((0xcf << 24) | (12 << 8) | ((flags) << 3) | (type)), \
101 CPU_2_BE_32(addr), CPU_2_BE_32(mask)
103 #define MXC_DCD_CMD_CHK_CNT(type, flags, addr, mask, count) \
104 1: .word CPU_2_BE_32((0xcf << 24) | (16 << 8) | ((flags) << 3) | (type)), \
105 CPU_2_BE_32(addr), CPU_2_BE_32(mask), CPU_2_BE_32(count)
107 #define MXC_DCD_CMD_NOP() \
108 1: .word CPU_2_BE_32((0xc0 << 24) | (4 << 8))
111 #define CK_TO_NS(ck) (((ck) * 1000 + SDRAM_CLK / 2) / SDRAM_CLK)
112 #define NS_TO_CK(ns) (((ns) * SDRAM_CLK + 999) / 1000)
113 #define NS_TO_CK10(ns) DIV_ROUND_UP(NS_TO_CK(ns), 10)
115 .macro CK_VAL, name, clks, offs, max
119 .ifle \clks - \offs - \max
120 .set \name, \clks - \offs
122 .error "Value \clks out of range for parameter \name"
127 .macro NS_VAL, name, ns, offs, max
131 CK_VAL \name, NS_TO_CK(\ns), \offs, \max
135 .macro CK_MAX, name, ck1, ck2, offs, max
137 CK_VAL \name, \ck1, \offs, \max
139 CK_VAL \name, \ck2, \offs, \max
143 #define ESDMISC_DDR_TYPE_DDR3 0
144 #define ESDMISC_DDR_TYPE_LPDDR2 1
145 #define ESDMISC_DDR_TYPE_DDR2 2
147 #define DIV_ROUND_UP(m,d) (((m) + (d) - 1) / (d))
149 #define CKIL_FREQ_Hz 32768
150 #define ESDOR_CLK_PERIOD_ns (1000000000 / CKIL_FREQ_Hz / 2) /* base clock for ESDOR values */
153 #if SDRAM_SIZE > PHYS_SDRAM_1_SIZE
154 #define BANK_ADDR_BITS 2
156 #define BANK_ADDR_BITS 1
158 #define SDRAM_BURST_LENGTH 8
162 #define ADDR_MIRROR 0
163 #define DDR_TYPE ESDMISC_DDR_TYPE_DDR3
165 /* 512/1024MiB SDRAM: NT5CB128M16FP-DII */
166 #if SDRAM_CLK > 666 && SDRAM_CLK <= 800
169 #elif SDRAM_CLK > 533 && SDRAM_CLK <= 666
170 #define CL_VAL 9 // or 10
172 #elif SDRAM_CLK > 400 && SDRAM_CLK <= 533
173 #define CL_VAL 7 // or 8
175 #elif SDRAM_CLK > 333 && SDRAM_CLK <= 400
178 #elif SDRAM_CLK >= 303 && SDRAM_CLK <= 333
182 #error SDRAM clock out of range: 303 .. 800
186 NS_VAL tRFC, 160, 1, 255 /* clks - 1 (0..255) */
187 CK_MAX tXS, NS_TO_CK(CK_TO_NS(tRFC + 1) + 10), 5, 1, 255 /* clks - 1 (0..255) tRFC + 10 */
188 CK_MAX tXP, NS_TO_CK10(75), 3, 1, 7 /* clks - 1 (0..7) */ /* max(3tCK, 7.5ns) */
189 CK_MAX tXPDLL, NS_TO_CK(24), 2, 1, 15 /* clks - 1 (0..15) */
190 NS_VAL tFAW, 50, 1, 31 /* clks - 1 (0..31) */
191 CK_VAL tCL, CL_VAL, 3, 8 /* clks - 3 (0..8) CAS Latency */
194 CK_VAL tRCD, NS_TO_CK10(125), 1, 7 /* clks - 1 (0..7) */ /* 12.5 */
195 CK_VAL tRP, NS_TO_CK10(125), 1, 7 /* clks - 1 (0..7) */ /* 12.5 */
196 NS_VAL tRC, 50, 1, 31 /* clks - 1 (0..31) */
197 CK_VAL tRAS, NS_TO_CK10(375), 1, 31 /* clks - 1 (0..31) */ /* 37.5 */
198 CK_VAL tRPA, 1, 0, 1 /* clks (0..1) */
199 NS_VAL tWR, 15, 1, 15 /* clks - 1 (0..15) */
200 CK_VAL tMRD, 4, 1, 15 /* clks - 1 (0..15) */
201 CK_VAL tCWL, CWL_VAL, 2, 6 /* clks - 2 (0..6) */
204 CK_VAL tDLLK, 512, 1, 511 /* clks - 1 (0..511) */
205 CK_MAX tRTP, NS_TO_CK10(75), 4, 1, 7 /* clks - 1 (0..7) */ /* max(4tCK, 7.5ns) */
206 CK_MAX tWTR, NS_TO_CK10(75), 4, 1, 7 /* clks - 1 (0..7) */ /* max(4tCK, 7.5ns) */
207 CK_MAX tRRD, NS_TO_CK(10), 4, 1, 7 /* clks - 1 (0..7) */
210 CK_MAX tXPR, NS_TO_CK(CK_TO_NS(tRFC + 1) + 10), 5, 1, 255 /* clks - 1 (0..255) max(tRFC + 10, 5CK) */
211 #define tSDE_RST (DIV_ROUND_UP(200000, ESDOR_CLK_PERIOD_ns) + 1)
212 /* Add an extra (or two?) ESDOR_CLK_PERIOD_ns according to
213 * erroneous Erratum Engcm12377
215 #define tRST_CKE (DIV_ROUND_UP(500000 + 2 * ESDOR_CLK_PERIOD_ns, ESDOR_CLK_PERIOD_ns) + 1)
219 CK_VAL tAOFPD, NS_TO_CK10(85), 1, 7 /* clks - 1 (0..7) */ /* 8.5ns */
220 CK_VAL tAONPD, NS_TO_CK10(85), 1, 7 /* clks - 1 (0..7) */ /* 8.5ns */
221 CK_VAL tANPD, tCWL + 1, 1, 15 /* clks - 1 (0..15) */
222 CK_VAL tAXPD, tCWL + 1, 1, 15 /* clks - 1 (0..15) */
223 CK_VAL tODTLon tCWL, 0, 7 /* clks - 1 (0..7) */ /* CWL+AL-2 */
224 CK_VAL tODTLoff tCWL, 0, 31 /* clks - 1 (0..31) */ /* CWL+AL-2 */
227 CK_MAX tCKE, NS_TO_CK(5), 3, 1, 7
228 CK_MAX tCKSRX, NS_TO_CK(10), 5, 0, 7
229 CK_MAX tCKSRE, NS_TO_CK(10), 5, 0, 7
236 #define ESDPDC_VAL_0 ( \
241 (BOTH_CS_PD << 6) | \
246 #define ESDPDC_VAL_1 (ESDPDC_VAL_0 | \
251 #define ROW_ADDR_BITS 14
252 #define COL_ADDR_BITS 10
254 #define Rtt_Nom 1 /* ODT: 0: off 1: RZQ/4 2: RZQ/2 3: RZQ/6 4: RZQ/12 5: RZQ/8 */
255 #define Rtt_WR 0 /* Dynamic ODT: 0: off 1: RZQ/4 2: RZQ/2 */
256 #define DLL_DISABLE 0
259 .set mr0_val, (((1 - DLL_DISABLE) << 8) /* DLL Reset */ | \
260 (SLOW_PD << 12) /* PD exit: 0: fast 1: slow */ |\
261 ((tWR + 1 - 4) << 9) | \
262 ((((tCL + 3) - 4) & 0x7) << 4) | \
263 ((((tCL + 3) - 4) & 0x8) >> 1))
265 .set mr0_val, ((1 << 8) /* DLL Reset */ | \
266 (SLOW_PD << 12) /* PD exit: 0: fast 1: slow */ |\
267 (((tWR + 1) / 2) << 9) | \
268 ((((tCL + 3) - 4) & 0x7) << 4) | \
269 ((((tCL + 3) - 4) & 0x8) >> 1))
273 ((Rtt_Nom & 1) << 2) | \
274 (((Rtt_Nom >> 1) & 1) << 6) | \
275 (((Rtt_Nom >> 2) & 1) << 9) | \
276 (DLL_DISABLE << 0) | \
279 (Rtt_WR << 9) /* dynamic ODT */ | \
280 (0 << 7) /* SRT: Ext. temp. (mutually exclusive with ASR!) */ | \
281 (1 << 6) | /* ASR: Automatic Self Refresh */ \
282 (((tCWL + 2) - 5) << 3) | \
286 #define ESDSCR_MRS_VAL(cs, mr, val) (((val) << 16) | \
287 (1 << 15) /* CON_REQ */ | \
289 (3 << 4) /* MRS command */ | \
294 #define ESDCFG0_VAL ( \
302 #define ESDCFG1_VAL ( \
312 #define ESDCFG2_VAL ( \
318 #define BURST_LEN (SDRAM_BURST_LENGTH / 8) /* 0: 4 byte 1: 8 byte */
320 #define ESDCTL_VAL (((ROW_ADDR_BITS - 11) << 24) | \
321 ((COL_ADDR_BITS - 9) << 20) | \
322 (BURST_LEN << 19) | \
323 (1 << 16) | /* SDRAM bus width */ \
324 ((-1) << (32 - BANK_ADDR_BITS)))
326 #define ESDMISC_VAL ((ADDR_MIRROR << 19) | \
333 #define ESDOR_VAL ((tXPR << 16) | (tSDE_RST << 8) | (tRST_CKE << 0))
335 #define ESDOTC_VAL ((tAOFPD << 27) | \
344 .word 0x20424346 /* "FCB " marker */
345 .word 0x01 /* FCB version number */
347 .word 0x0 /* primary image starting page number */
348 .word 0x0 /* secondary image starting page number */
350 .word 0x0 /* DBBT start page (0 == NO DBBT) */
351 .word 0 /* Bad block marker offset in main area (unused) */
353 .word 0 /* BI Swap disabled */
354 .word 0 /* Bad Block marker offset in spare area */
359 .word CPU_2_BE_32((0xd1 << 24) | (32 << 8) | 0x40)
375 .long __rel_dyn_end - fcb_start
379 #define DCD_VERSION 0x40
383 MXC_DCD_CMD_WRT(MXC_DCD_CMD_SZ_WORD, MXC_DCD_CMD_FLAG_WRITE)
385 MXC_DCD_ITEM(0x53fa8004, 0x00194005) @ set LDO to 1.3V
387 /* disable all irrelevant clocks */
388 MXC_DCD_ITEM(CCM_BASE_ADDR + REG_CCGR0, 0xffcf0fff)
389 MXC_DCD_ITEM(CCM_BASE_ADDR + REG_CCGR1, 0x000fffcf)
390 MXC_DCD_ITEM(CCM_BASE_ADDR + REG_CCGR2, 0x033c0000)
391 MXC_DCD_ITEM(CCM_BASE_ADDR + REG_CCGR3, 0x000000ff)
392 MXC_DCD_ITEM(CCM_BASE_ADDR + REG_CCGR4, 0x00000000)
393 MXC_DCD_ITEM(CCM_BASE_ADDR + REG_CCGR5, 0x00fff033)
394 MXC_DCD_ITEM(CCM_BASE_ADDR + REG_CCGR6, 0x0f00030f)
395 MXC_DCD_ITEM(CCM_BASE_ADDR + REG_CCGR7, 0xfff00000)
396 MXC_DCD_ITEM(CCM_BASE_ADDR + REG_CMEOR, 0x00000000)
398 MXC_DCD_ITEM(IOMUXC_BASE_ADDR + 0x340, 0x11) /* GPIO_17 => RESET_OUT */
400 MXC_DCD_ITEM(0x63fd800c, 0x00000000) /* M4IF: MUX NFC signals on WEIM */
402 MXC_DCD_ITEM(0x53fd4014, 0x00888944) /* CBCDR */
404 MXC_DCD_ITEM(0x53fd4014, 0x00888644) /* CBCDR */
406 MXC_DCD_ITEM(0x53fd4018, 0x00016154) /* CBCMR */
408 MXC_DCD_ITEM(0x53fd401c, 0xa6a2a020) /* CSCMR1 */
409 MXC_DCD_ITEM(0x53fd4020, 0xb6b12f0a) /* CSCMR2 */
410 MXC_DCD_ITEM(0x53fd4024, 0x00080b18) /* CSCDR1 */
412 #define DDR_SEL_VAL 0
416 #define DDR_SEL_SHIFT 25
419 #define DDR_INPUT_SHIFT 9
425 #define DDR_SEL_MASK (DDR_SEL_VAL << DDR_SEL_SHIFT)
426 #define DSE_MASK (DSE_VAL << DSE_SHIFT)
427 #define ODT_MASK (ODT_VAL << ODT_SHIFT)
429 #define DQM_VAL DSE_MASK
430 #define SDQS_VAL (ODT_MASK | DSE_MASK | (1 << PUE_SHIFT))
431 #define SDODT_VAL (DSE_MASK | (0 << PKE_SHIFT) | (1 << PUE_SHIFT) | (0 << PUS_SHIFT))
432 #define SDCLK_VAL DSE_MASK
433 #define SDCKE_VAL ((1 << PKE_SHIFT) | (1 << PUE_SHIFT) | (0 << PUS_SHIFT))
435 MXC_DCD_ITEM(0x53fa8724, DDR_SEL_MASK) /* DDR_TYPE: DDR3 */
436 MXC_DCD_ITEM(0x53fa86f4, 0 << DDR_INPUT_SHIFT) /* DDRMODE_CTL */
437 MXC_DCD_ITEM(0x53fa8714, 0 << DDR_INPUT_SHIFT) /* GRP_DDRMODE */
438 MXC_DCD_ITEM(0x53fa86fc, 1 << PKE_SHIFT) /* GRP_DDRPKE */
439 MXC_DCD_ITEM(0x53fa8710, 0 << HYS_SHIFT) /* GRP_DDRHYS */
440 MXC_DCD_ITEM(0x53fa8708, 1 << PUE_SHIFT) /* GRP_DDRPK */
442 MXC_DCD_ITEM(0x53fa8584, DQM_VAL) /* DQM0 */
443 MXC_DCD_ITEM(0x53fa8594, DQM_VAL) /* DQM1 */
444 MXC_DCD_ITEM(0x53fa8560, DQM_VAL) /* DQM2 */
445 MXC_DCD_ITEM(0x53fa8554, DQM_VAL) /* DQM3 */
447 MXC_DCD_ITEM(0x53fa857c, SDQS_VAL) /* SDQS0 */
448 MXC_DCD_ITEM(0x53fa8590, SDQS_VAL) /* SDQS1 */
449 MXC_DCD_ITEM(0x53fa8568, SDQS_VAL) /* SDQS2 */
450 MXC_DCD_ITEM(0x53fa8558, SDQS_VAL) /* SDQS3 */
452 MXC_DCD_ITEM(0x53fa8580, SDODT_VAL) /* SDODT0 */
453 MXC_DCD_ITEM(0x53fa8578, SDCLK_VAL) /* SDCLK0 */
455 MXC_DCD_ITEM(0x53fa8564, SDODT_VAL) /* SDODT1 */
456 MXC_DCD_ITEM(0x53fa8570, SDCLK_VAL) /* SDCLK1 */
458 MXC_DCD_ITEM(0x53fa858c, SDCKE_VAL) /* SDCKE0 */
459 MXC_DCD_ITEM(0x53fa855c, SDCKE_VAL) /* SDCKE1 */
461 MXC_DCD_ITEM(0x53fa8574, DSE_MASK) /* DRAM_CAS */
462 MXC_DCD_ITEM(0x53fa8588, DSE_MASK) /* DRAM_RAS */
464 MXC_DCD_ITEM(0x53fa86f0, DSE_MASK) /* GRP_ADDDS */
465 MXC_DCD_ITEM(0x53fa8720, DSE_MASK) /* GRP_CTLDS */
466 MXC_DCD_ITEM(0x53fa8718, DSE_MASK) /* GRP_B0DS */
467 MXC_DCD_ITEM(0x53fa871c, DSE_MASK) /* GRP_B1DS */
468 MXC_DCD_ITEM(0x53fa8728, DSE_MASK) /* GRP_B2DS */
469 MXC_DCD_ITEM(0x53fa872c, DSE_MASK) /* GRP_B3DS */
471 /* calibration defaults */
472 MXC_DCD_ITEM(0x63fd904c, 0x001f001f)
473 MXC_DCD_ITEM(0x63fd9050, 0x001f001f)
474 MXC_DCD_ITEM(0x63fd907c, 0x011e011e)
475 MXC_DCD_ITEM(0x63fd9080, 0x011f0120)
476 MXC_DCD_ITEM(0x63fd9088, 0x3a393d3b)
477 MXC_DCD_ITEM(0x63fd9090, 0x3f3f3f3f)
479 MXC_DCD_ITEM(0x63fd9018, ESDMISC_VAL)
480 MXC_DCD_ITEM(0x63fd9000, ESDCTL_VAL)
481 MXC_DCD_ITEM(0x63fd900c, ESDCFG0_VAL)
482 MXC_DCD_ITEM(0x63fd9010, ESDCFG1_VAL)
483 MXC_DCD_ITEM(0x63fd9014, ESDCFG2_VAL)
485 MXC_DCD_ITEM(0x63fd902c, 0x000026d2)
486 MXC_DCD_ITEM(0x63fd9030, ESDOR_VAL)
487 MXC_DCD_ITEM(0x63fd9008, ESDOTC_VAL)
488 MXC_DCD_ITEM(0x63fd9004, ESDPDC_VAL_0)
491 MXC_DCD_ITEM(0x63fd901c, 0x00008000) /* CON_REQ */
492 MXC_DCD_CMD_CHK(MXC_DCD_CMD_SZ_WORD, MXC_DCD_CMD_FLAG_CHK_SET, 0x63fd901c, 0x00004000)
493 MXC_DCD_CMD_WRT(MXC_DCD_CMD_SZ_WORD, MXC_DCD_CMD_FLAG_WRITE)
495 MXC_DCD_ITEM(0x63fd901c, ESDSCR_MRS_VAL(0, 2, mr2_val)) /* MRS: MR2 */
496 MXC_DCD_ITEM(0x63fd901c, ESDSCR_MRS_VAL(0, 3, mr3_val)) /* MRS: MR3 */
497 MXC_DCD_ITEM(0x63fd901c, ESDSCR_MRS_VAL(0, 1, mr1_val)) /* MRS: MR1 */
498 MXC_DCD_ITEM(0x63fd901c, ESDSCR_MRS_VAL(0, 0, mr0_val)) /* MRS: MR0 */
499 #if BANK_ADDR_BITS > 1
501 MXC_DCD_ITEM(0x63fd901c, ESDSCR_MRS_VAL(1, 2, 0x0000)) /* MRS: MR2 */
502 MXC_DCD_ITEM(0x63fd901c, ESDSCR_MRS_VAL(1, 3, 0x0000)) /* MRS: MR3 */
503 MXC_DCD_ITEM(0x63fd901c, ESDSCR_MRS_VAL(1, 1, 0x0040)) /* MRS: MR1 */
504 MXC_DCD_ITEM(0x63fd901c, ESDSCR_MRS_VAL(1, 0, mr0_val)) /* MRS: MR0 */
506 MXC_DCD_ITEM(0x63fd9020, 3 << 14) /* disable refresh during calibration */
507 MXC_DCD_ITEM(0x63fd9058, 0x00022222)
509 MXC_DCD_ITEM(0x63fd90d0, 0x00000003) /* select default compare pattern for calibration */
512 MXC_DCD_ITEM(0x63fd901c, 0x04008010) /* precharge all */
513 MXC_DCD_ITEM(0x63fd901c, 0x00008040) /* MRS: ZQ calibration */
514 MXC_DCD_ITEM(0x63fd9040, 0x0539002b) /* Force ZQ calibration */
515 MXC_DCD_CMD_CHK(MXC_DCD_CMD_SZ_WORD, MXC_DCD_CMD_FLAG_CHK_CLR, 0x63fd9040, 0x00010000)
516 MXC_DCD_CMD_WRT(MXC_DCD_CMD_SZ_WORD, MXC_DCD_CMD_FLAG_WRITE)
518 /* DQS calibration */
519 MXC_DCD_ITEM(0x63fd901c, 0x04008010) /* precharge all */
520 MXC_DCD_ITEM(0x63fd901c, ESDSCR_MRS_VAL(0, 3, (1 << 2))) /* MRS: select MPR */
521 MXC_DCD_ITEM(0x63fd907c, 0x90000000) /* reset RD fifo and start DQS calib. */
523 MXC_DCD_CMD_CHK(MXC_DCD_CMD_SZ_WORD, MXC_DCD_CMD_FLAG_CHK_CLR, 0x63fd907c, 0x90000000)
524 MXC_DCD_CMD_WRT(MXC_DCD_CMD_SZ_WORD, MXC_DCD_CMD_FLAG_WRITE)
525 MXC_DCD_ITEM(0x63fd901c, ESDSCR_MRS_VAL(0, 3, 0)) /* MRS: select normal data path */
527 /* WR DL calibration */
528 MXC_DCD_ITEM(0x63fd901c, 0x00008000)
529 MXC_DCD_ITEM(0x63fd901c, 0x04008010) /* precharge all */
530 MXC_DCD_ITEM(0x63fd901c, ESDSCR_MRS_VAL(0, 3, (1 << 2))) /* MRS: select MPR */
531 MXC_DCD_ITEM(0x63fd90a4, 0x00000010)
533 MXC_DCD_CMD_CHK(MXC_DCD_CMD_SZ_WORD, MXC_DCD_CMD_FLAG_CHK_CLR, 0x63fd90a4, 0x00000010)
534 MXC_DCD_CMD_WRT(MXC_DCD_CMD_SZ_WORD, MXC_DCD_CMD_FLAG_WRITE)
535 MXC_DCD_ITEM(0x63fd901c, ESDSCR_MRS_VAL(0, 3, 0)) /* MRS: select normal data path */
537 /* RD DL calibration */
538 MXC_DCD_ITEM(0x63fd901c, 0x04008010) /* precharge all */
539 MXC_DCD_ITEM(0x63fd901c, ESDSCR_MRS_VAL(0, 3, (1 << 2))) /* MRS: select MPR */
540 MXC_DCD_ITEM(0x63fd90a0, 0x00000010)
542 MXC_DCD_CMD_CHK(MXC_DCD_CMD_SZ_WORD, MXC_DCD_CMD_FLAG_CHK_CLR, 0x63fd90a0, 0x00000010)
543 MXC_DCD_CMD_WRT(MXC_DCD_CMD_SZ_WORD, MXC_DCD_CMD_FLAG_WRITE)
544 MXC_DCD_ITEM(0x63fd901c, ESDSCR_MRS_VAL(0, 3, 0)) /* MRS: select normal data path */
545 MXC_DCD_ITEM(0x63fd9020, (3 << 11) | (0 << 14)) /* refresh interval: 4 cycles every 64kHz period */
546 MXC_DCD_ITEM(0x63fd9004, ESDPDC_VAL_1)
548 /* DDR calibration done */
549 MXC_DCD_ITEM(0x63fd901c, 0x00000000)
553 MXC_DCD_ITEM(0x53fa819c, 0x00000000) @ EIM_DA0
554 MXC_DCD_ITEM(0x53fa81a0, 0x00000000) @ EIM_DA1
555 MXC_DCD_ITEM(0x53fa81a4, 0x00000000) @ EIM_DA2
556 MXC_DCD_ITEM(0x53fa81a8, 0x00000000) @ EIM_DA3
557 MXC_DCD_ITEM(0x53fa81ac, 0x00000000) @ EIM_DA4
558 MXC_DCD_ITEM(0x53fa81b0, 0x00000000) @ EIM_DA5
559 MXC_DCD_ITEM(0x53fa81b4, 0x00000000) @ EIM_DA6
560 MXC_DCD_ITEM(0x53fa81b8, 0x00000000) @ EIM_DA7
561 MXC_DCD_ITEM(0x53fa81dc, 0x00000000) @ WE_B
562 MXC_DCD_ITEM(0x53fa81e0, 0x00000000) @ RE_B
563 MXC_DCD_ITEM(0x53fa8228, 0x00000000) @ CLE
564 MXC_DCD_ITEM(0x53fa822c, 0x00000000) @ ALE
565 MXC_DCD_ITEM(0x53fa8230, 0x00000000) @ WP_B
566 MXC_DCD_ITEM(0x53fa8234, 0x00000000) @ RB0
567 MXC_DCD_ITEM(0x53fa8238, 0x00000000) @ CS0
569 MXC_DCD_ITEM(0x53fa84ec, 0x000000e4) @ EIM_DA0
570 MXC_DCD_ITEM(0x53fa84f0, 0x000000e4) @ EIM_DA1
571 MXC_DCD_ITEM(0x53fa84f4, 0x000000e4) @ EIM_DA2
572 MXC_DCD_ITEM(0x53fa84f8, 0x000000e4) @ EIM_DA3
573 MXC_DCD_ITEM(0x53fa84fc, 0x000000e4) @ EIM_DA4
574 MXC_DCD_ITEM(0x53fa8500, 0x000000e4) @ EIM_DA5
575 MXC_DCD_ITEM(0x53fa8504, 0x000000e4) @ EIM_DA6
576 MXC_DCD_ITEM(0x53fa8508, 0x000000e4) @ EIM_DA7
577 MXC_DCD_ITEM(0x53fa852c, 0x00000004) @ NANDF_WE_B
578 MXC_DCD_ITEM(0x53fa8530, 0x00000004) @ NANDF_RE_B
579 MXC_DCD_ITEM(0x53fa85a0, 0x00000004) @ NANDF_CLE_B
580 MXC_DCD_ITEM(0x53fa85a4, 0x00000004) @ NANDF_ALE_B
581 MXC_DCD_ITEM(0x53fa85a8, 0x000000e4) @ NANDF_WE_B
582 MXC_DCD_ITEM(0x53fa85ac, 0x000000e4) @ NANDF_RB0
583 MXC_DCD_ITEM(0x53fa85b0, 0x00000004) @ NANDF_CS0