fb11e647
vrobic
reseau statique a...
|
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
111
112
113
114
115
116
117
118
119
120
121
122
123
124
125
126
127
128
129
130
131
132
133
134
135
136
137
138
139
140
141
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
158
159
160
161
162
163
164
165
166
167
168
169
170
171
172
173
174
175
176
177
178
179
180
181
182
183
184
185
186
187
188
189
190
191
192
193
194
195
196
197
198
199
200
201
202
203
204
205
206
207
208
209
210
211
212
213
214
215
216
217
218
219
220
221
222
223
224
225
226
227
228
229
230
231
232
233
234
235
236
237
238
239
240
241
242
243
244
245
246
247
248
249
250
251
252
253
254
255
256
257
258
259
260
261
262
263
264
265
266
267
268
269
270
271
272
273
274
275
276
277
278
279
280
281
282
283
284
285
286
287
288
289
290
291
292
293
294
295
296
297
298
299
300
301
302
303
304
305
306
307
308
309
310
311
312
313
314
315
316
317
318
319
320
321
322
323
324
325
326
327
328
329
330
331
332
333
334
335
336
337
338
339
340
341
342
343
344
345
346
347
348
349
350
351
352
353
354
355
356
357
358
359
360
361
362
363
364
365
366
367
368
369
370
371
372
373
374
375
376
377
378
379
380
381
382
383
384
385
386
387
388
389
390
391
392
393
394
395
396
397
398
399
400
401
402
403
404
405
406
407
408
409
410
411
412
413
414
415
416
417
418
419
420
421
422
423
424
425
426
427
428
429
430
431
432
433
434
435
436
437
438
439
440
441
442
443
444
445
446
447
448
449
450
451
452
453
454
455
456
457
458
459
460
461
462
463
464
465
466
467
468
469
470
471
472
473
474
475
476
477
478
479
480
481
482
483
484
485
486
487
488
489
490
491
492
493
494
495
496
497
498
499
500
501
502
503
504
505
506
507
508
509
510
511
512
513
514
515
516
517
518
519
520
521
522
523
524
525
526
527
528
529
530
531
532
533
534
535
536
537
538
539
540
541
542
543
544
545
546
547
548
549
550
551
552
553
554
555
556
557
558
559
560
561
562
563
564
565
566
567
568
569
570
571
572
573
574
575
576
577
578
579
580
581
582
583
584
585
586
587
588
589
590
591
592
593
594
595
596
597
598
599
600
601
602
603
604
605
606
607
608
609
610
611
612
613
614
615
616
617
618
619
620
621
622
623
624
625
626
627
628
629
630
631
632
633
634
635
636
637
638
639
640
641
642
643
644
645
646
647
648
649
650
651
652
653
654
655
656
657
658
659
660
661
662
663
664
665
666
667
668
669
670
671
672
673
674
675
676
677
678
679
680
681
682
683
684
685
686
687
688
689
690
691
692
693
694
695
696
697
698
699
700
701
702
703
704
705
706
707
708
709
710
711
712
713
714
715
716
717
718
719
720
721
722
723
724
725
726
727
728
729
730
731
732
733
734
735
736
737
738
739
740
741
742
743
744
745
746
747
748
749
750
751
752
753
754
755
756
757
758
759
760
761
762
763
764
765
766
767
768
769
770
771
772
773
774
775
776
777
778
779
780
781
782
783
784
785
786
787
788
789
790
791
792
793
794
795
796
797
798
799
800
801
802
803
804
805
806
807
808
809
810
811
812
813
814
815
816
817
818
819
820
|
/*
* Copyright (C) 2014 Loci Controls Inc.
*
* This file is subject to the terms and conditions of the GNU Lesser
* General Public License v2.1. See the file LICENSE in the top level
* directory for more details.
*/
/**
* @ingroup cpu_cc2538_regs
* @{
*
* @file
* @brief CC2538 MCU interrupt and register definitions
*
* @author Ian Martin <ian@locicontrols.com>
*/
#ifndef _CC2538_
#define _CC2538_
#ifdef __cplusplus
extern "C" {
#endif
/* ************************************************************************** */
/* CMSIS DEFINITIONS FOR CC2538 */
/* ************************************************************************** */
/** @addtogroup CC2538_cmsis CMSIS Definitions */
/*@{*/
/** Interrupt Number Definition */
typedef enum IRQn
{
/****** Cortex-M3 Processor Exceptions Numbers ****************************/
ResetHandler_IRQn = -15, /**< 1 Reset Handler */
NonMaskableInt_IRQn = -14, /**< 2 Non Maskable Interrupt */
HardFault_IRQn = -13, /**< 3 Cortex-M3 Hard Fault Interrupt */
MemoryManagement_IRQn = -12, /**< 4 Cortex-M3 Memory Management Interrupt */
BusFault_IRQn = -11, /**< 5 Cortex-M3 Bus Fault Interrupt */
UsageFault_IRQn = -10, /**< 6 Cortex-M3 Usage Fault Interrupt */
SVCall_IRQn = - 5, /**< 11 Cortex-M3 SV Call Interrupt */
DebugMonitor_IRQn = - 4, /**< 12 Cortex-M3 Debug Monitor Interrupt */
PendSV_IRQn = - 2, /**< 14 Cortex-M3 Pend SV Interrupt */
SysTick_IRQn = - 1, /**< 15 Cortex-M3 System Tick Interrupt */
/****** CC2538 specific Interrupt Numbers *********************************/
GPIO_PORT_A_IRQn = 0, /**< GPIO port A */
GPIO_PORT_B_IRQn = 1, /**< GPIO port B */
GPIO_PORT_C_IRQn = 2, /**< GPIO port C */
GPIO_PORT_D_IRQn = 3, /**< GPIO port D */
UART0_IRQn = 5, /**< UART0 */
UART1_IRQn = 6, /**< UART1 */
SSI0_IRQn = 7, /**< SSI0 */
I2C_IRQn = 8, /**< I2C */
ADC_IRQn = 14, /**< ADC */
WDT_IRQn = 18, /**< Watchdog Timer */
GPTIMER_0A_IRQn = 19, /**< GPTimer 0A */
GPTIMER_0B_IRQn = 20, /**< GPTimer 0B */
GPTIMER_1A_IRQn = 21, /**< GPTimer 1A */
GPTIMER_1B_IRQn = 22, /**< GPTimer 1B */
GPTIMER_2A_IRQn = 23, /**< GPTimer 2A */
GPTIMER_2B_IRQn = 24, /**< GPTimer 2B */
ADC_CMP_IRQn = 25, /**< Analog Comparator */
RF_RXTX_ALT_IRQn = 26, /**< RF TX/RX (Alternate) */
RF_ERR_ALT_IRQn = 27, /**< RF Error (Alternate) */
SYS_CTRL_IRQn = 28, /**< System Control */
FLASH_CTRL_IRQn = 29, /**< Flash memory control */
AES_ALT_IRQn = 30, /**< AES (Alternate) */
PKA_ALT_IRQn = 31, /**< PKA (Alternate) */
SM_TIMER_ALT_IRQn = 32, /**< SM Timer (Alternate) */
MAC_TIMER_ALT_IRQn = 33, /**< MAC Timer (Alternate) */
SSI1_IRQn = 34, /**< SSI1 */
GPTIMER_3A_IRQn = 35, /**< GPTimer 3A */
GPTIMER_3B_IRQn = 36, /**< GPTimer 3B */
UDMA_IRQn = 46, /**< uDMA software */
UDMA_ERR_IRQn = 47, /**< uDMA error */
USB_IRQn = 140, /**< USB */
RF_RXTX_IRQn = 141, /**< RF Core Rx/Tx */
RF_ERR_IRQn = 142, /**< RF Core Error */
AES_IRQn = 143, /**< AES */
PKA_IRQn = 144, /**< PKA */
SM_TIMER_IRQn = 145, /**< SM Timer */
MACTIMER_IRQn = 146, /**< MAC Timer */
PERIPH_COUNT_IRQn = (MACTIMER_IRQn + 1) /**< Number of peripheral IDs */
} IRQn_Type;
/** @name Cortex-M3 core interrupt handlers
* @{
*/
void Reset_Handler(void); /**< Reset handler */
void NMI_Handler(void); /**< NMI handler */
void HardFault_Handler(void); /**< Hard fault handler */
void MemManage_Handler(void); /**< Memory management handler */
void BusFault_Handler(void); /**< Bus fault handler */
void UsageFault_Handler(void); /**< Usage fault handler */
void SVC_Handler(void); /**< SVC handler */
void DebugMon_Handler(void); /**< Debug monitor handler */
void PendSV_Handler(void); /**< PendSV handler */
void SysTick_Handler(void); /**< SysTick handler */
/** @} */
/**
* @brief Configuration of the Cortex-M3 Processor and Core Peripherals
*/
#define __CM3_REV 0x0200 /**< CC2538 core revision number ([15:8] revision number, [7:0] patch number) */
#define __MPU_PRESENT 1 /**< CC2538 does provide a MPU */
#define __NVIC_PRIO_BITS 3 /**< CC2538 uses 3 Bits for the Priority Levels */
#define __Vendor_SysTickConfig 0 /**< Set to 1 if different SysTick Config is used */
/**
* @brief CMSIS includes
*/
#include <core_cm3.h>
/*@}*/
#define IEEE_ADDR_MSWORD ( *(const uint32_t*)0x00280028 ) /**< Most-significant 32 bits of the IEEE address */
#define IEEE_ADDR_LSWORD ( *(const uint32_t*)0x0028002c ) /**< Least-significant 32 bits of the IEEE address */
typedef volatile uint32_t cc2538_reg_t; /**< Least-significant 32 bits of the IEEE address */
/** @addtogroup cpu_specific_Peripheral_memory_map
* @{
*/
#define FLASH_BASE 0x00200000 /**< FLASH base address */
#define SRAM_BASE 0x20000000 /**< SRAM base address */
#define PERIPH_BASE 0x40000000 /**< Peripheral base address */
#define SRAM_BB_BASE 0x22000000 /**< SRAM base address in the bit-band region */
/** @} */
/** @name CC2538 Special Function Registers
* @{
*/
#define SSI0_CR0 ( *(cc2538_reg_t*)0x40008000 ) /**< SSI0 Control Register 0 */
#define SSI0_CR1 ( *(cc2538_reg_t*)0x40008004 ) /**< SSI0 Control Register 1 */
#define SSI0_DR ( *(cc2538_reg_t*)0x40008008 ) /**< SSI0 Data register */
#define SSI0_SR ( *(cc2538_reg_t*)0x4000800c ) /**< SSI0 FIFO/busy Status Register */
#define SSI0_CPSR ( *(cc2538_reg_t*)0x40008010 ) /**< SSI0 Clock Register */
#define SSI0_IM ( *(cc2538_reg_t*)0x40008014 ) /**< SSI0 Interrupt Mask register */
#define SSI0_RIS ( *(cc2538_reg_t*)0x40008018 ) /**< SSI0 Raw Interrupt Status register */
#define SSI0_MIS ( *(cc2538_reg_t*)0x4000801c ) /**< SSI0 Masked Interrupt Status register */
#define SSI0_ICR ( *(cc2538_reg_t*)0x40008020 ) /**< SSI0 Interrupt Clear Register */
#define SSI0_DMACTL ( *(cc2538_reg_t*)0x40008024 ) /**< SSI0 uDMA Control Register. */
#define SSI0_CC ( *(cc2538_reg_t*)0x40008fc8 ) /**< SSI0 clock configuration */
#define SSI1_CR0 ( *(cc2538_reg_t*)0x40009000 ) /**< SSI1 Control Register 0 */
#define SSI1_CR1 ( *(cc2538_reg_t*)0x40009004 ) /**< SSI1 Control Register 1 */
#define SSI1_DR ( *(cc2538_reg_t*)0x40009008 ) /**< SSI1 Data register */
#define SSI1_SR ( *(cc2538_reg_t*)0x4000900c ) /**< SSI1 FIFO/busy Status Register */
#define SSI1_CPSR ( *(cc2538_reg_t*)0x40009010 ) /**< SSI1 Clock Register */
#define SSI1_IM ( *(cc2538_reg_t*)0x40009014 ) /**< SSI1 Interrupt Mask register */
#define SSI1_RIS ( *(cc2538_reg_t*)0x40009018 ) /**< SSI1 Raw Interrupt Status register */
#define SSI1_MIS ( *(cc2538_reg_t*)0x4000901c ) /**< SSI1 Masked Interrupt Status register */
#define SSI1_ICR ( *(cc2538_reg_t*)0x40009020 ) /**< SSI1 Interrupt Clear Register */
#define SSI1_DMACTL ( *(cc2538_reg_t*)0x40009024 ) /**< SSI1 uDMA Control Register. */
#define SSI1_CC ( *(cc2538_reg_t*)0x40009fc8 ) /**< SSI1 clock configuration */
#define UART0_DR ( *(cc2538_reg_t*)0x4000c000 ) /**< UART0 Data Register */
#define UART0_ECR ( *(cc2538_reg_t*)0x4000c004 ) /**< UART0 receive status and error clear */
#define UART0_RSR ( *(cc2538_reg_t*)0x4000c004 ) /**< UART0 receive status and error clear */
#define UART0_FR ( *(cc2538_reg_t*)0x4000c018 ) /**< UART0 flag */
#define UART0_ILPR ( *(cc2538_reg_t*)0x4000c020 ) /**< UART0 IrDA low-power register */
#define UART0_IBRD ( *(cc2538_reg_t*)0x4000c024 ) /**< UART0 integer baud-rate divisor */
#define UART0_FBRD ( *(cc2538_reg_t*)0x4000c028 ) /**< UART0 fractional baud-rate divisor */
#define UART0_LCRH ( *(cc2538_reg_t*)0x4000c02c ) /**< UART0 line control */
#define UART0_CTL ( *(cc2538_reg_t*)0x4000c030 ) /**< UART0 control */
#define UART0_IFLS ( *(cc2538_reg_t*)0x4000c034 ) /**< UART0 interrupt FIFO level select */
#define UART0_IM ( *(cc2538_reg_t*)0x4000c038 ) /**< UART0 interrupt mask */
#define UART0_RIS ( *(cc2538_reg_t*)0x4000c03c ) /**< UART0 raw interrupt status */
#define UART0_MIS ( *(cc2538_reg_t*)0x4000c040 ) /**< UART0 masked interrupt status */
#define UART0_ICR ( *(cc2538_reg_t*)0x4000c044 ) /**< UART0 interrupt clear */
#define UART0_DMACTL ( *(cc2538_reg_t*)0x4000c048 ) /**< UART0 DMA control */
#define UART0_LCTL ( *(cc2538_reg_t*)0x4000c090 ) /**< UART0 LIN control */
#define UART0_LSS ( *(cc2538_reg_t*)0x4000c094 ) /**< UART0 LIN snap shot */
#define UART0_LTIM ( *(cc2538_reg_t*)0x4000c098 ) /**< UART0 LIN timer */
#define UART0_NINEBITADDR ( *(cc2538_reg_t*)0x4000c0a4 ) /**< UART0 9-bit self address */
#define UART0_NINEBITAMASK ( *(cc2538_reg_t*)0x4000c0a8 ) /**< UART0 9-bit self address mask */
#define UART0_PP ( *(cc2538_reg_t*)0x4000cfc0 ) /**< UART0 peripheral properties */
#define UART0_CC ( *(cc2538_reg_t*)0x4000cfc8 ) /**< UART0 clock configuration */
#define UART1_DR ( *(cc2538_reg_t*)0x4000d000 ) /**< UART1 Data Register */
#define UART1_ECR ( *(cc2538_reg_t*)0x4000d004 ) /**< UART1 receive status and error clear */
#define UART1_RSR ( *(cc2538_reg_t*)0x4000d004 ) /**< UART1 receive status and error clear */
#define UART1_FR ( *(cc2538_reg_t*)0x4000d018 ) /**< UART1 flag */
#define UART1_ILPR ( *(cc2538_reg_t*)0x4000d020 ) /**< UART1 IrDA low-power register */
#define UART1_IBRD ( *(cc2538_reg_t*)0x4000d024 ) /**< UART1 integer baud-rate divisor */
#define UART1_FBRD ( *(cc2538_reg_t*)0x4000d028 ) /**< UART1 fractional baud-rate divisor */
#define UART1_LCRH ( *(cc2538_reg_t*)0x4000d02c ) /**< UART1 line control */
#define UART1_CTL ( *(cc2538_reg_t*)0x4000d030 ) /**< UART1 control */
#define UART1_IFLS ( *(cc2538_reg_t*)0x4000d034 ) /**< UART1 interrupt FIFO level select */
#define UART1_IM ( *(cc2538_reg_t*)0x4000d038 ) /**< UART1 interrupt mask */
#define UART1_RIS ( *(cc2538_reg_t*)0x4000d03c ) /**< UART1 raw interrupt status */
#define UART1_MIS ( *(cc2538_reg_t*)0x4000d040 ) /**< UART1 masked interrupt status */
#define UART1_ICR ( *(cc2538_reg_t*)0x4000d044 ) /**< UART1 interrupt clear */
#define UART1_DMACTL ( *(cc2538_reg_t*)0x4000d048 ) /**< UART1 DMA control */
#define UART1_LCTL ( *(cc2538_reg_t*)0x4000d090 ) /**< UART1 LIN control */
#define UART1_LSS ( *(cc2538_reg_t*)0x4000d094 ) /**< UART1 LIN snap shot */
#define UART1_LTIM ( *(cc2538_reg_t*)0x4000d098 ) /**< UART1 LIN timer */
#define UART1_NINEBITADDR ( *(cc2538_reg_t*)0x4000d0a4 ) /**< UART1 9-bit self address */
#define UART1_NINEBITAMASK ( *(cc2538_reg_t*)0x4000d0a8 ) /**< UART1 9-bit self address mask */
#define UART1_PP ( *(cc2538_reg_t*)0x4000dfc0 ) /**< UART1 peripheral properties */
#define UART1_CC ( *(cc2538_reg_t*)0x4000dfc8 ) /**< UART1 clock configuration */
#define I2CM_SA ( *(cc2538_reg_t*)0x40020000 ) /**< I2C Master Slave address */
#define I2CM_CTRL ( *(cc2538_reg_t*)0x40020004 ) /**< I2C Master Control and status */
#define I2CM_STAT ( *(cc2538_reg_t*)0x40020004 ) /**< I2C Master Control and status */
#define I2CM_DR ( *(cc2538_reg_t*)0x40020008 ) /**< I2C Master Data */
#define I2CM_TPR ( *(cc2538_reg_t*)0x4002000c ) /**< I2C Master Timer period */
#define I2CM_IMR ( *(cc2538_reg_t*)0x40020010 ) /**< I2C Master Interrupt mask */
#define I2CM_RIS ( *(cc2538_reg_t*)0x40020014 ) /**< I2C Master Raw interrupt status */
#define I2CM_MIS ( *(cc2538_reg_t*)0x40020018 ) /**< I2C Master Masked interrupt status */
#define I2CM_ICR ( *(cc2538_reg_t*)0x4002001c ) /**< I2C Master Interrupt clear */
#define I2CM_CR ( *(cc2538_reg_t*)0x40020020 ) /**< I2C Master Configuration */
#define I2CS_OAR ( *(cc2538_reg_t*)0x40020800 ) /**< I2C Slave own address */
#define I2CS_CTRL ( *(cc2538_reg_t*)0x40020804 ) /**< I2C Slave Control and status */
#define I2CS_STAT ( *(cc2538_reg_t*)0x40020804 ) /**< I2C Slave Control and status */
#define I2CS_DR ( *(cc2538_reg_t*)0x40020808 ) /**< I2C Slave Data */
#define I2CS_IMR ( *(cc2538_reg_t*)0x4002080c ) /**< I2C Slave Interrupt mask */
#define I2CS_RIS ( *(cc2538_reg_t*)0x40020810 ) /**< I2C Slave Raw interrupt status */
#define I2CS_MIS ( *(cc2538_reg_t*)0x40020814 ) /**< I2C Slave Masked interrupt status */
#define I2CS_ICR ( *(cc2538_reg_t*)0x40020818 ) /**< I2C Slave Interrupt clear */
#define GPTIMER0_CFG ( *(cc2538_reg_t*)0x40030000 ) /**< GPTM0 configuration */
#define GPTIMER0_TAMR ( *(cc2538_reg_t*)0x40030004 ) /**< GPTM0 Timer A mode */
#define GPTIMER0_TBMR ( *(cc2538_reg_t*)0x40030008 ) /**< GPTM0 Timer B mode */
#define GPTIMER0_CTL ( *(cc2538_reg_t*)0x4003000c ) /**< GPTM0 control */
#define GPTIMER0_SYNC ( *(cc2538_reg_t*)0x40030010 ) /**< GPTM0 synchronize */
#define GPTIMER0_IMR ( *(cc2538_reg_t*)0x40030018 ) /**< GPTM0 interrupt mask */
#define GPTIMER0_RIS ( *(cc2538_reg_t*)0x4003001c ) /**< GPTM0 raw interrupt status */
#define GPTIMER0_MIS ( *(cc2538_reg_t*)0x40030020 ) /**< GPTM0 masked interrupt status */
#define GPTIMER0_ICR ( *(cc2538_reg_t*)0x40030024 ) /**< GPTM0 interrupt clear */
#define GPTIMER0_TAILR ( *(cc2538_reg_t*)0x40030028 ) /**< GPTM0 Timer A interval load */
#define GPTIMER0_TBILR ( *(cc2538_reg_t*)0x4003002c ) /**< GPTM0 Timer B interval load */
#define GPTIMER0_TAMATCHR ( *(cc2538_reg_t*)0x40030030 ) /**< GPTM0 Timer A match */
#define GPTIMER0_TBMATCHR ( *(cc2538_reg_t*)0x40030034 ) /**< GPTM0 Timer B match */
#define GPTIMER0_TAPR ( *(cc2538_reg_t*)0x40030038 ) /**< GPTM0 Timer A prescale */
#define GPTIMER0_TBPR ( *(cc2538_reg_t*)0x4003003c ) /**< GPTM0 Timer B prescale */
#define GPTIMER0_TAPMR ( *(cc2538_reg_t*)0x40030040 ) /**< GPTM0 Timer A prescale match */
#define GPTIMER0_TBPMR ( *(cc2538_reg_t*)0x40030044 ) /**< GPTM0 Timer B prescale match */
#define GPTIMER0_TAR ( *(cc2538_reg_t*)0x40030048 ) /**< GPTM0 Timer A */
#define GPTIMER0_TBR ( *(cc2538_reg_t*)0x4003004c ) /**< GPTM0 Timer B */
#define GPTIMER0_TAV ( *(cc2538_reg_t*)0x40030050 ) /**< GPTM0 Timer A value */
#define GPTIMER0_TBV ( *(cc2538_reg_t*)0x40030054 ) /**< GPTM0 Timer B value */
#define GPTIMER0_TAPS ( *(cc2538_reg_t*)0x4003005c ) /**< GPTM0 Timer A prescale snapshot */
#define GPTIMER0_TBPS ( *(cc2538_reg_t*)0x40030060 ) /**< GPTM0 Timer B prescale snapshot */
#define GPTIMER0_TAPV ( *(cc2538_reg_t*)0x40030064 ) /**< GPTM0 Timer A prescale value */
#define GPTIMER0_TBPV ( *(cc2538_reg_t*)0x40030068 ) /**< GPTM0 Timer B prescale value */
#define GPTIMER0_PP ( *(cc2538_reg_t*)0x40030fc0 ) /**< GPTM0 peripheral properties */
#define GPTIMER1_CFG ( *(cc2538_reg_t*)0x40031000 ) /**< GPTM1 configuration */
#define GPTIMER1_TAMR ( *(cc2538_reg_t*)0x40031004 ) /**< GPTM1 Timer A mode */
#define GPTIMER1_TBMR ( *(cc2538_reg_t*)0x40031008 ) /**< GPTM1 Timer B mode */
#define GPTIMER1_CTL ( *(cc2538_reg_t*)0x4003100c ) /**< GPTM1 control */
#define GPTIMER1_SYNC ( *(cc2538_reg_t*)0x40031010 ) /**< GPTM1 synchronize */
#define GPTIMER1_IMR ( *(cc2538_reg_t*)0x40031018 ) /**< GPTM1 interrupt mask */
#define GPTIMER1_RIS ( *(cc2538_reg_t*)0x4003101c ) /**< GPTM1 raw interrupt status */
#define GPTIMER1_MIS ( *(cc2538_reg_t*)0x40031020 ) /**< GPTM1 masked interrupt status */
#define GPTIMER1_ICR ( *(cc2538_reg_t*)0x40031024 ) /**< GPTM1 interrupt clear */
#define GPTIMER1_TAILR ( *(cc2538_reg_t*)0x40031028 ) /**< GPTM1 Timer A interval load */
#define GPTIMER1_TBILR ( *(cc2538_reg_t*)0x4003102c ) /**< GPTM1 Timer B interval load */
#define GPTIMER1_TAMATCHR ( *(cc2538_reg_t*)0x40031030 ) /**< GPTM1 Timer A match */
#define GPTIMER1_TBMATCHR ( *(cc2538_reg_t*)0x40031034 ) /**< GPTM1 Timer B match */
#define GPTIMER1_TAPR ( *(cc2538_reg_t*)0x40031038 ) /**< GPTM1 Timer A prescale */
#define GPTIMER1_TBPR ( *(cc2538_reg_t*)0x4003103c ) /**< GPTM1 Timer B prescale */
#define GPTIMER1_TAPMR ( *(cc2538_reg_t*)0x40031040 ) /**< GPTM1 Timer A prescale match */
#define GPTIMER1_TBPMR ( *(cc2538_reg_t*)0x40031044 ) /**< GPTM1 Timer B prescale match */
#define GPTIMER1_TAR ( *(cc2538_reg_t*)0x40031048 ) /**< GPTM1 Timer A */
#define GPTIMER1_TBR ( *(cc2538_reg_t*)0x4003104c ) /**< GPTM1 Timer B */
#define GPTIMER1_TAV ( *(cc2538_reg_t*)0x40031050 ) /**< GPTM1 Timer A value */
#define GPTIMER1_TBV ( *(cc2538_reg_t*)0x40031054 ) /**< GPTM1 Timer B value */
#define GPTIMER1_TAPS ( *(cc2538_reg_t*)0x4003105c ) /**< GPTM1 Timer A prescale snapshot */
#define GPTIMER1_TBPS ( *(cc2538_reg_t*)0x40031060 ) /**< GPTM1 Timer B prescale snapshot */
#define GPTIMER1_TAPV ( *(cc2538_reg_t*)0x40031064 ) /**< GPTM1 Timer A prescale value */
#define GPTIMER1_TBPV ( *(cc2538_reg_t*)0x40031068 ) /**< GPTM1 Timer B prescale value */
#define GPTIMER1_PP ( *(cc2538_reg_t*)0x40031fc0 ) /**< GPTM1 peripheral properties */
#define GPTIMER2_CFG ( *(cc2538_reg_t*)0x40032000 ) /**< GPTM2 configuration */
#define GPTIMER2_TAMR ( *(cc2538_reg_t*)0x40032004 ) /**< GPTM2 Timer A mode */
#define GPTIMER2_TBMR ( *(cc2538_reg_t*)0x40032008 ) /**< GPTM2 Timer B mode */
#define GPTIMER2_CTL ( *(cc2538_reg_t*)0x4003200c ) /**< GPTM2 control */
#define GPTIMER2_SYNC ( *(cc2538_reg_t*)0x40032010 ) /**< GPTM2 synchronize */
#define GPTIMER2_IMR ( *(cc2538_reg_t*)0x40032018 ) /**< GPTM2 interrupt mask */
#define GPTIMER2_RIS ( *(cc2538_reg_t*)0x4003201c ) /**< GPTM2 raw interrupt status */
#define GPTIMER2_MIS ( *(cc2538_reg_t*)0x40032020 ) /**< GPTM2 masked interrupt status */
#define GPTIMER2_ICR ( *(cc2538_reg_t*)0x40032024 ) /**< GPTM2 interrupt clear */
#define GPTIMER2_TAILR ( *(cc2538_reg_t*)0x40032028 ) /**< GPTM2 Timer A interval load */
#define GPTIMER2_TBILR ( *(cc2538_reg_t*)0x4003202c ) /**< GPTM2 Timer B interval load */
#define GPTIMER2_TAMATCHR ( *(cc2538_reg_t*)0x40032030 ) /**< GPTM2 Timer A match */
#define GPTIMER2_TBMATCHR ( *(cc2538_reg_t*)0x40032034 ) /**< GPTM2 Timer B match */
#define GPTIMER2_TAPR ( *(cc2538_reg_t*)0x40032038 ) /**< GPTM2 Timer A prescale */
#define GPTIMER2_TBPR ( *(cc2538_reg_t*)0x4003203c ) /**< GPTM2 Timer B prescale */
#define GPTIMER2_TAPMR ( *(cc2538_reg_t*)0x40032040 ) /**< GPTM2 Timer A prescale match */
#define GPTIMER2_TBPMR ( *(cc2538_reg_t*)0x40032044 ) /**< GPTM2 Timer B prescale match */
#define GPTIMER2_TAR ( *(cc2538_reg_t*)0x40032048 ) /**< GPTM2 Timer A */
#define GPTIMER2_TBR ( *(cc2538_reg_t*)0x4003204c ) /**< GPTM2 Timer B */
#define GPTIMER2_TAV ( *(cc2538_reg_t*)0x40032050 ) /**< GPTM2 Timer A value */
#define GPTIMER2_TBV ( *(cc2538_reg_t*)0x40032054 ) /**< GPTM2 Timer B value */
#define GPTIMER2_TAPS ( *(cc2538_reg_t*)0x4003205c ) /**< GPTM2 Timer A prescale snapshot */
#define GPTIMER2_TBPS ( *(cc2538_reg_t*)0x40032060 ) /**< GPTM2 Timer B prescale snapshot */
#define GPTIMER2_TAPV ( *(cc2538_reg_t*)0x40032064 ) /**< GPTM2 Timer A prescale value */
#define GPTIMER2_TBPV ( *(cc2538_reg_t*)0x40032068 ) /**< GPTM2 Timer B prescale value */
#define GPTIMER2_PP ( *(cc2538_reg_t*)0x40032fc0 ) /**< GPTM2 peripheral properties */
#define GPTIMER3_CFG ( *(cc2538_reg_t*)0x40033000 ) /**< GPTM3 configuration */
#define GPTIMER3_TAMR ( *(cc2538_reg_t*)0x40033004 ) /**< GPTM3 Timer A mode */
#define GPTIMER3_TBMR ( *(cc2538_reg_t*)0x40033008 ) /**< GPTM3 Timer B mode */
#define GPTIMER3_CTL ( *(cc2538_reg_t*)0x4003300c ) /**< GPTM3 control */
#define GPTIMER3_SYNC ( *(cc2538_reg_t*)0x40033010 ) /**< GPTM3 synchronize */
#define GPTIMER3_IMR ( *(cc2538_reg_t*)0x40033018 ) /**< GPTM3 interrupt mask */
#define GPTIMER3_RIS ( *(cc2538_reg_t*)0x4003301c ) /**< GPTM3 raw interrupt status */
#define GPTIMER3_MIS ( *(cc2538_reg_t*)0x40033020 ) /**< GPTM3 masked interrupt status */
#define GPTIMER3_ICR ( *(cc2538_reg_t*)0x40033024 ) /**< GPTM3 interrupt clear */
#define GPTIMER3_TAILR ( *(cc2538_reg_t*)0x40033028 ) /**< GPTM3 Timer A interval load */
#define GPTIMER3_TBILR ( *(cc2538_reg_t*)0x4003302c ) /**< GPTM3 Timer B interval load */
#define GPTIMER3_TAMATCHR ( *(cc2538_reg_t*)0x40033030 ) /**< GPTM3 Timer A match */
#define GPTIMER3_TBMATCHR ( *(cc2538_reg_t*)0x40033034 ) /**< GPTM3 Timer B match */
#define GPTIMER3_TAPR ( *(cc2538_reg_t*)0x40033038 ) /**< GPTM3 Timer A prescale */
#define GPTIMER3_TBPR ( *(cc2538_reg_t*)0x4003303c ) /**< GPTM3 Timer B prescale */
#define GPTIMER3_TAPMR ( *(cc2538_reg_t*)0x40033040 ) /**< GPTM3 Timer A prescale match */
#define GPTIMER3_TBPMR ( *(cc2538_reg_t*)0x40033044 ) /**< GPTM3 Timer B prescale match */
#define GPTIMER3_TAR ( *(cc2538_reg_t*)0x40033048 ) /**< GPTM3 Timer A */
#define GPTIMER3_TBR ( *(cc2538_reg_t*)0x4003304c ) /**< GPTM3 Timer B */
#define GPTIMER3_TAV ( *(cc2538_reg_t*)0x40033050 ) /**< GPTM3 Timer A value */
#define GPTIMER3_TBV ( *(cc2538_reg_t*)0x40033054 ) /**< GPTM3 Timer B value */
#define GPTIMER3_TAPS ( *(cc2538_reg_t*)0x4003305c ) /**< GPTM3 Timer A prescale snapshot */
#define GPTIMER3_TBPS ( *(cc2538_reg_t*)0x40033060 ) /**< GPTM3 Timer B prescale snapshot */
#define GPTIMER3_TAPV ( *(cc2538_reg_t*)0x40033064 ) /**< GPTM3 Timer A prescale value */
#define GPTIMER3_TBPV ( *(cc2538_reg_t*)0x40033068 ) /**< GPTM3 Timer B prescale value */
#define GPTIMER3_PP ( *(cc2538_reg_t*)0x40033fc0 ) /**< GPTM3 peripheral properties */
#define RFCORE_FFSM_SRCRESMASK0 ( *(cc2538_reg_t*)0x40088580 ) /**< RF Source address matching result */
#define RFCORE_FFSM_SRCRESMASK1 ( *(cc2538_reg_t*)0x40088584 ) /**< RF Source address matching result */
#define RFCORE_FFSM_SRCRESMASK2 ( *(cc2538_reg_t*)0x40088588 ) /**< RF Source address matching result */
#define RFCORE_FFSM_SRCRESINDEX ( *(cc2538_reg_t*)0x4008858c ) /**< RF Source address matching result */
#define RFCORE_FFSM_SRCEXTPENDEN0 ( *(cc2538_reg_t*)0x40088590 ) /**< RF Source address matching control */
#define RFCORE_FFSM_SRCEXTPENDEN1 ( *(cc2538_reg_t*)0x40088594 ) /**< RF Source address matching control */
#define RFCORE_FFSM_SRCEXTPENDEN2 ( *(cc2538_reg_t*)0x40088598 ) /**< RF Source address matching control */
#define RFCORE_FFSM_SRCSHORTPENDEN0 ( *(cc2538_reg_t*)0x4008859c ) /**< RF Source address matching control */
#define RFCORE_FFSM_SRCSHORTPENDEN1 ( *(cc2538_reg_t*)0x400885a0 ) /**< RF Source address matching control */
#define RFCORE_FFSM_SRCSHORTPENDEN2 ( *(cc2538_reg_t*)0x400885a4 ) /**< RF Source address matching control */
#define RFCORE_FFSM_EXT_ADDR0 ( *(cc2538_reg_t*)0x400885a8 ) /**< RF Local address information */
#define RFCORE_FFSM_EXT_ADDR1 ( *(cc2538_reg_t*)0x400885ac ) /**< RF Local address information */
#define RFCORE_FFSM_EXT_ADDR2 ( *(cc2538_reg_t*)0x400885b0 ) /**< RF Local address information */
#define RFCORE_FFSM_EXT_ADDR3 ( *(cc2538_reg_t*)0x400885b4 ) /**< RF Local address information */
#define RFCORE_FFSM_EXT_ADDR4 ( *(cc2538_reg_t*)0x400885b8 ) /**< RF Local address information */
#define RFCORE_FFSM_EXT_ADDR5 ( *(cc2538_reg_t*)0x400885bc ) /**< RF Local address information */
#define RFCORE_FFSM_EXT_ADDR6 ( *(cc2538_reg_t*)0x400885c0 ) /**< RF Local address information */
#define RFCORE_FFSM_EXT_ADDR7 ( *(cc2538_reg_t*)0x400885c4 ) /**< RF Local address information */
#define RFCORE_FFSM_PAN_ID0 ( *(cc2538_reg_t*)0x400885c8 ) /**< RF Local address information */
#define RFCORE_FFSM_PAN_ID1 ( *(cc2538_reg_t*)0x400885cc ) /**< RF Local address information */
#define RFCORE_FFSM_SHORT_ADDR0 ( *(cc2538_reg_t*)0x400885d0 ) /**< RF Local address information */
#define RFCORE_FFSM_SHORT_ADDR1 ( *(cc2538_reg_t*)0x400885d4 ) /**< RF Local address information */
#define RFCORE_XREG_FRMFILT0 ( *(cc2538_reg_t*)0x40088600 ) /**< RF Frame Filter 0 */
#define RFCORE_XREG_FRMFILT1 ( *(cc2538_reg_t*)0x40088604 ) /**< RF Frame Filter 1 */
#define RFCORE_XREG_SRCMATCH ( *(cc2538_reg_t*)0x40088608 ) /**< RF Source address matching and pending bits */
#define RFCORE_XREG_SRCSHORTEN0 ( *(cc2538_reg_t*)0x4008860c ) /**< RF Short address matching */
#define RFCORE_XREG_SRCSHORTEN1 ( *(cc2538_reg_t*)0x40088610 ) /**< RF Short address matching */
#define RFCORE_XREG_SRCSHORTEN2 ( *(cc2538_reg_t*)0x40088614 ) /**< RF Short address matching */
#define RFCORE_XREG_SRCEXTEN0 ( *(cc2538_reg_t*)0x40088618 ) /**< RF Extended address matching */
#define RFCORE_XREG_SRCEXTEN1 ( *(cc2538_reg_t*)0x4008861c ) /**< RF Extended address matching */
#define RFCORE_XREG_SRCEXTEN2 ( *(cc2538_reg_t*)0x40088620 ) /**< RF Extended address matching */
#define RFCORE_XREG_FRMCTRL0 ( *(cc2538_reg_t*)0x40088624 ) /**< RF Frame handling */
#define RFCORE_XREG_FRMCTRL1 ( *(cc2538_reg_t*)0x40088628 ) /**< RF Frame handling */
#define RFCORE_XREG_RXENABLE ( *(cc2538_reg_t*)0x4008862c ) /**< RF RX enabling */
#define RFCORE_XREG_RXMASKSET ( *(cc2538_reg_t*)0x40088630 ) /**< RF RX enabling */
#define RFCORE_XREG_RXMASKCLR ( *(cc2538_reg_t*)0x40088634 ) /**< RF RX disabling */
#define RFCORE_XREG_FREQTUNE ( *(cc2538_reg_t*)0x40088638 ) /**< RF Crystal oscillator frequency tuning */
#define RFCORE_XREG_FREQCTRL ( *(cc2538_reg_t*)0x4008863c ) /**< RF Controls the RF frequency */
#define RFCORE_XREG_TXPOWER ( *(cc2538_reg_t*)0x40088640 ) /**< RF Controls the output power */
#define RFCORE_XREG_TXCTRL ( *(cc2538_reg_t*)0x40088644 ) /**< RF Controls the TX settings */
#define RFCORE_XREG_FSMSTAT0 ( *(cc2538_reg_t*)0x40088648 ) /**< RF Radio status register */
#define RFCORE_XREG_FSMSTAT1 ( *(cc2538_reg_t*)0x4008864c ) /**< RF Radio status register */
#define RFCORE_XREG_FIFOPCTRL ( *(cc2538_reg_t*)0x40088650 ) /**< RF FIFOP threshold */
#define RFCORE_XREG_FSMCTRL ( *(cc2538_reg_t*)0x40088654 ) /**< RF FSM options */
#define RFCORE_XREG_CCACTRL0 ( *(cc2538_reg_t*)0x40088658 ) /**< RF CCA threshold */
#define RFCORE_XREG_CCACTRL1 ( *(cc2538_reg_t*)0x4008865c ) /**< RF Other CCA Options */
#define RFCORE_XREG_RSSI ( *(cc2538_reg_t*)0x40088660 ) /**< RF RSSI status register */
#define RFCORE_XREG_RSSISTAT ( *(cc2538_reg_t*)0x40088664 ) /**< RF RSSI valid status register */
#define RFCORE_XREG_RXFIRST ( *(cc2538_reg_t*)0x40088668 ) /**< RF First byte in RX FIFO */
#define RFCORE_XREG_RXFIFOCNT ( *(cc2538_reg_t*)0x4008866c ) /**< RF Number of bytes in RX FIFO */
#define RFCORE_XREG_TXFIFOCNT ( *(cc2538_reg_t*)0x40088670 ) /**< RF Number of bytes in TX FIFO */
#define RFCORE_XREG_RXFIRST_PTR ( *(cc2538_reg_t*)0x40088674 ) /**< RF RX FIFO pointer */
#define RFCORE_XREG_RXLAST_PTR ( *(cc2538_reg_t*)0x40088678 ) /**< RF RX FIFO pointer */
#define RFCORE_XREG_RXP1_PTR ( *(cc2538_reg_t*)0x4008867c ) /**< RF RX FIFO pointer */
#define RFCORE_XREG_TXFIRST_PTR ( *(cc2538_reg_t*)0x40088684 ) /**< RF TX FIFO pointer */
#define RFCORE_XREG_TXLAST_PTR ( *(cc2538_reg_t*)0x40088688 ) /**< RF TX FIFO pointer */
#define RFCORE_XREG_RFIRQM0 ( *(cc2538_reg_t*)0x4008868c ) /**< RF interrupt masks */
#define RFCORE_XREG_RFIRQM1 ( *(cc2538_reg_t*)0x40088690 ) /**< RF interrupt masks */
#define RFCORE_XREG_RFERRM ( *(cc2538_reg_t*)0x40088694 ) /**< RF error interrupt mask */
#define RFCORE_XREG_RFRND ( *(cc2538_reg_t*)0x4008869c ) /**< RF Random data */
#define RFCORE_XREG_MDMCTRL0 ( *(cc2538_reg_t*)0x400886a0 ) /**< RF Controls modem */
#define RFCORE_XREG_MDMCTRL1 ( *(cc2538_reg_t*)0x400886a4 ) /**< RF Controls modem */
#define RFCORE_XREG_FREQEST ( *(cc2538_reg_t*)0x400886a8 ) /**< RF Estimated RF frequency offset */
#define RFCORE_XREG_RXCTRL ( *(cc2538_reg_t*)0x400886ac ) /**< RF Tune receive section */
#define RFCORE_XREG_FSCTRL ( *(cc2538_reg_t*)0x400886b0 ) /**< RF Tune frequency synthesizer */
#define RFCORE_XREG_FSCAL0 ( *(cc2538_reg_t*)0x400886b4 ) /**< RF Tune frequency calibration */
#define RFCORE_XREG_FSCAL1 ( *(cc2538_reg_t*)0x400886b8 ) /**< RF Tune frequency calibration */
#define RFCORE_XREG_FSCAL2 ( *(cc2538_reg_t*)0x400886bc ) /**< RF Tune frequency calibration */
#define RFCORE_XREG_FSCAL3 ( *(cc2538_reg_t*)0x400886c0 ) /**< RF Tune frequency calibration */
#define RFCORE_XREG_AGCCTRL0 ( *(cc2538_reg_t*)0x400886c4 ) /**< RF AGC dynamic range control */
#define RFCORE_XREG_AGCCTRL1 ( *(cc2538_reg_t*)0x400886c8 ) /**< RF AGC reference level */
#define RFCORE_XREG_AGCCTRL2 ( *(cc2538_reg_t*)0x400886cc ) /**< RF AGC gain override */
#define RFCORE_XREG_AGCCTRL3 ( *(cc2538_reg_t*)0x400886d0 ) /**< RF AGC control */
#define RFCORE_XREG_ADCTEST0 ( *(cc2538_reg_t*)0x400886d4 ) /**< RF ADC tuning */
#define RFCORE_XREG_ADCTEST1 ( *(cc2538_reg_t*)0x400886d8 ) /**< RF ADC tuning */
#define RFCORE_XREG_ADCTEST2 ( *(cc2538_reg_t*)0x400886dc ) /**< RF ADC tuning */
#define RFCORE_XREG_MDMTEST0 ( *(cc2538_reg_t*)0x400886e0 ) /**< RF Test register for modem */
#define RFCORE_XREG_MDMTEST1 ( *(cc2538_reg_t*)0x400886e4 ) /**< RF Test Register for Modem */
#define RFCORE_XREG_DACTEST0 ( *(cc2538_reg_t*)0x400886e8 ) /**< RF DAC override value */
#define RFCORE_XREG_DACTEST1 ( *(cc2538_reg_t*)0x400886ec ) /**< RF DAC override value */
#define RFCORE_XREG_DACTEST2 ( *(cc2538_reg_t*)0x400886f0 ) /**< RF DAC test setting */
#define RFCORE_XREG_ATEST ( *(cc2538_reg_t*)0x400886f4 ) /**< RF Analog test control */
#define RFCORE_XREG_PTEST0 ( *(cc2538_reg_t*)0x400886f8 ) /**< RF Override power-down register */
#define RFCORE_XREG_PTEST1 ( *(cc2538_reg_t*)0x400886fc ) /**< RF Override power-down register */
#define RFCORE_XREG_CSPCTRL ( *(cc2538_reg_t*)0x40088780 ) /**< RF CSP control bit */
#define RFCORE_XREG_CSPSTAT ( *(cc2538_reg_t*)0x40088784 ) /**< RF CSP status register */
#define RFCORE_XREG_CSPX ( *(cc2538_reg_t*)0x40088788 ) /**< RF CSP X data register */
#define RFCORE_XREG_CSPY ( *(cc2538_reg_t*)0x4008878c ) /**< RF CSP Y data register */
#define RFCORE_XREG_CSPZ ( *(cc2538_reg_t*)0x40088790 ) /**< RF CSP Z data register */
#define RFCORE_XREG_CSPT ( *(cc2538_reg_t*)0x40088794 ) /**< RF CSP T data register */
#define RFCORE_XREG_RFC_OBS_CTRL0 ( *(cc2538_reg_t*)0x400887ac ) /**< RF observation mux control */
#define RFCORE_XREG_RFC_OBS_CTRL1 ( *(cc2538_reg_t*)0x400887b0 ) /**< RF observation mux control */
#define RFCORE_XREG_RFC_OBS_CTRL2 ( *(cc2538_reg_t*)0x400887b4 ) /**< RF observation mux control */
#define RFCORE_XREG_TXFILTCFG ( *(cc2538_reg_t*)0x400887e8 ) /**< RF TX filter configuration */
#define RFCORE_SFR_MTCSPCFG ( *(cc2538_reg_t*)0x40088800 ) /**< RF MAC Timer event configuration */
#define RFCORE_SFR_MTCTRL ( *(cc2538_reg_t*)0x40088804 ) /**< RF MAC Timer control register */
#define RFCORE_SFR_MTIRQM ( *(cc2538_reg_t*)0x40088808 ) /**< RF MAC Timer interrupt mask */
#define RFCORE_SFR_MTIRQF ( *(cc2538_reg_t*)0x4008880c ) /**< RF MAC Timer interrupt flags */
#define RFCORE_SFR_MTMSEL ( *(cc2538_reg_t*)0x40088810 ) /**< RF MAC Timer multiplex select */
#define RFCORE_SFR_MTM0 ( *(cc2538_reg_t*)0x40088814 ) /**< RF MAC Timer multiplexed register 0 */
#define RFCORE_SFR_MTM1 ( *(cc2538_reg_t*)0x40088818 ) /**< RF MAC Timer multiplexed register 1 */
#define RFCORE_SFR_MTMOVF2 ( *(cc2538_reg_t*)0x4008881c ) /**< RF MAC Timer multiplexed overflow register 2 */
#define RFCORE_SFR_MTMOVF1 ( *(cc2538_reg_t*)0x40088820 ) /**< RF MAC Timer multiplexed overflow register 1 */
#define RFCORE_SFR_MTMOVF0 ( *(cc2538_reg_t*)0x40088824 ) /**< RF MAC Timer multiplexed overflow register 0 */
#define RFCORE_SFR_RFDATA ( *(cc2538_reg_t*)0x40088828 ) /**< RF Tx/Rx FIFO */
#define RFCORE_SFR_RFERRF ( *(cc2538_reg_t*)0x4008882c ) /**< RF error interrupt flags */
#define RFCORE_SFR_RFIRQF1 ( *(cc2538_reg_t*)0x40088830 ) /**< RF interrupt flags */
#define RFCORE_SFR_RFIRQF0 ( *(cc2538_reg_t*)0x40088834 ) /**< RF interrupt flags */
#define RFCORE_SFR_RFST ( *(cc2538_reg_t*)0x40088838 ) /**< RF CSMA-CA/strobe processor */
#define USB_ADDR ( *(cc2538_reg_t*)0x40089000 ) /**< USB Function address */
#define USB_POW ( *(cc2538_reg_t*)0x40089004 ) /**< USB Power management and control register */
#define USB_IIF ( *(cc2538_reg_t*)0x40089008 ) /**< USB Interrupt flags for endpoint 0 and IN endpoints 1-5 */
#define USB_OIF ( *(cc2538_reg_t*)0x40089010 ) /**< USB Interrupt flags for OUT endpoints 1-5 */
#define USB_CIF ( *(cc2538_reg_t*)0x40089018 ) /**< USB Common USB interrupt flags */
#define USB_IIE ( *(cc2538_reg_t*)0x4008901c ) /**< USB Interrupt enable mask for IN endpoints 1-5 and endpoint 0 */
#define USB_OIE ( *(cc2538_reg_t*)0x40089024 ) /**< USB Interrupt enable mask for OUT endpoints 1-5 */
#define USB_CIE ( *(cc2538_reg_t*)0x4008902c ) /**< USB Common USB interrupt enable mask */
#define USB_FRML ( *(cc2538_reg_t*)0x40089030 ) /**< USB Frame number (low byte) */
#define USB_FRMH ( *(cc2538_reg_t*)0x40089034 ) /**< USB Frame number (high byte) */
#define USB_INDEX ( *(cc2538_reg_t*)0x40089038 ) /**< USB Index register for selecting the endpoint status and control registers */
#define USB_CTRL ( *(cc2538_reg_t*)0x4008903c ) /**< USB USB peripheral control register */
#define USB_MAXI ( *(cc2538_reg_t*)0x40089040 ) /**< USB Indexed register: */
#define USB_CS0_CSIL ( *(cc2538_reg_t*)0x40089044 ) /**< USB Indexed register: */
#define USB_CSIH ( *(cc2538_reg_t*)0x40089048 ) /**< USB Indexed register: */
#define USB_MAXO ( *(cc2538_reg_t*)0x4008904c ) /**< USB Indexed register: */
#define USB_CSOL ( *(cc2538_reg_t*)0x40089050 ) /**< USB Indexed register: */
#define USB_CSOH ( *(cc2538_reg_t*)0x40089054 ) /**< USB Indexed register: */
#define USB_CNT0_CNTL ( *(cc2538_reg_t*)0x40089058 ) /**< USB Indexed register: */
#define USB_CNTH ( *(cc2538_reg_t*)0x4008905c ) /**< USB Indexed register: */
#define USB_F0 ( *(cc2538_reg_t*)0x40089080 ) /**< USB Endpoint 0 FIFO */
#define USB_F1 ( *(cc2538_reg_t*)0x40089088 ) /**< USB IN/OUT endpoint 1 FIFO */
#define USB_F2 ( *(cc2538_reg_t*)0x40089090 ) /**< USB IN/OUT endpoint 2 FIFO */
#define USB_F3 ( *(cc2538_reg_t*)0x40089098 ) /**< USB IN/OUT endpoint 3 FIFO */
#define USB_F4 ( *(cc2538_reg_t*)0x400890a0 ) /**< USB IN/OUT endpoint 4 FIFO */
#define USB_F5 ( *(cc2538_reg_t*)0x400890a8 ) /**< USB IN/OUT endpoint 5 FIFO */
#define AES_DMAC_CH0_CTRL ( *(cc2538_reg_t*)0x4008b000 ) /**< AES Channel control */
#define AES_DMAC_CH0_EXTADDR ( *(cc2538_reg_t*)0x4008b004 ) /**< AES Channel external address */
#define AES_DMAC_CH0_DMALENGTH ( *(cc2538_reg_t*)0x4008b00c ) /**< AES Channel DMA length */
#define AES_DMAC_STATUS ( *(cc2538_reg_t*)0x4008b018 ) /**< AES DMAC status */
#define AES_DMAC_SWRES ( *(cc2538_reg_t*)0x4008b01c ) /**< AES DMAC software reset register */
#define AES_DMAC_CH1_CTRL ( *(cc2538_reg_t*)0x4008b020 ) /**< AES Channel control */
#define AES_DMAC_CH1_EXTADDR ( *(cc2538_reg_t*)0x4008b024 ) /**< AES Channel external address */
#define AES_DMAC_CH1_DMALENGTH ( *(cc2538_reg_t*)0x4008b02c ) /**< AES Channel DMA length */
#define AES_DMAC_MST_RUNPARAMS ( *(cc2538_reg_t*)0x4008b078 ) /**< AES DMAC master run-time parameters */
#define AES_DMAC_PERSR ( *(cc2538_reg_t*)0x4008b07c ) /**< AES DMAC port error raw status register */
#define AES_DMAC_OPTIONS ( *(cc2538_reg_t*)0x4008b0f8 ) /**< AES DMAC options register */
#define AES_DMAC_VERSION ( *(cc2538_reg_t*)0x4008b0fc ) /**< AES DMAC version register */
#define AES_KEY_STORE_WRITE_AREA ( *(cc2538_reg_t*)0x4008b400 ) /**< AES Key store write area register */
#define AES_KEY_STORE_WRITTEN_AREA ( *(cc2538_reg_t*)0x4008b404 ) /**< AES Key store written area register */
#define AES_KEY_STORE_SIZE ( *(cc2538_reg_t*)0x4008b408 ) /**< AES Key store size register */
#define AES_KEY_STORE_READ_AREA ( *(cc2538_reg_t*)0x4008b40c ) /**< AES Key store read area register */
#define AES_AES_KEY2_0 ( *(cc2538_reg_t*)0x4008b500 ) /**< AES_KEY2_0 / AES_GHASH_H_IN_0 */
#define AES_AES_KEY2_1 ( *(cc2538_reg_t*)0x4008b504 ) /**< AES_KEY2_1 / AES_GHASH_H_IN_1 */
#define AES_AES_KEY2_2 ( *(cc2538_reg_t*)0x4008b508 ) /**< AES_KEY2_2 / AES_GHASH_H_IN_2 */
#define AES_AES_KEY2_3 ( *(cc2538_reg_t*)0x4008b50c ) /**< AES_KEY2_3 / AES_GHASH_H_IN_3 */
#define AES_AES_KEY3_0 ( *(cc2538_reg_t*)0x4008b510 ) /**< AES_KEY3_0 / AES_KEY2_4 */
#define AES_AES_KEY3_1 ( *(cc2538_reg_t*)0x4008b514 ) /**< AES_KEY3_1 / AES_KEY2_5 */
#define AES_AES_KEY3_2 ( *(cc2538_reg_t*)0x4008b518 ) /**< AES_KEY3_2 / AES_KEY2_6 */
#define AES_AES_KEY3_3 ( *(cc2538_reg_t*)0x4008b51c ) /**< AES_KEY3_3 / AES_KEY2_7 */
#define AES_AES_IV_0 ( *(cc2538_reg_t*)0x4008b540 ) /**< AES initialization vector registers */
#define AES_AES_IV_1 ( *(cc2538_reg_t*)0x4008b544 ) /**< AES initialization vector registers */
#define AES_AES_IV_2 ( *(cc2538_reg_t*)0x4008b548 ) /**< AES initialization vector registers */
#define AES_AES_IV_3 ( *(cc2538_reg_t*)0x4008b54c ) /**< AES initialization vector registers */
#define AES_AES_CTRL ( *(cc2538_reg_t*)0x4008b550 ) /**< AES input/output buffer control and mode register */
#define AES_AES_C_LENGTH_0 ( *(cc2538_reg_t*)0x4008b554 ) /**< AES crypto length registers (LSW) */
#define AES_AES_C_LENGTH_1 ( *(cc2538_reg_t*)0x4008b558 ) /**< AES crypto length registers (MSW) */
#define AES_AES_AUTH_LENGTH ( *(cc2538_reg_t*)0x4008b55c ) /**< AES Authentication length register */
#define AES_AES_DATA_IN_OUT_0 ( *(cc2538_reg_t*)0x4008b560 ) /**< AES Data input/output registers */
#define AES_AES_DATA_IN_OUT_1 ( *(cc2538_reg_t*)0x4008b564 ) /**< AES Data Input/Output Registers */
#define AES_AES_DATA_IN_OUT_2 ( *(cc2538_reg_t*)0x4008b568 ) /**< AES Data Input/Output Registers */
#define AES_AES_DATA_IN_OUT_3 ( *(cc2538_reg_t*)0x4008b56c ) /**< AES Data Input/Output Registers */
#define AES_AES_TAG_OUT_0 ( *(cc2538_reg_t*)0x4008b570 ) /**< AES TAG register 0 */
#define AES_AES_TAG_OUT_1 ( *(cc2538_reg_t*)0x4008b574 ) /**< AES TAG register 1 */
#define AES_AES_TAG_OUT_2 ( *(cc2538_reg_t*)0x4008b578 ) /**< AES TAG register 2 */
#define AES_AES_TAG_OUT_3 ( *(cc2538_reg_t*)0x4008b57c ) /**< AES TAG register 3 */
#define AES_HASH_DATA_IN_0 ( *(cc2538_reg_t*)0x4008b600 ) /**< AES HASH data input register 0 */
#define AES_HASH_DATA_IN_1 ( *(cc2538_reg_t*)0x4008b604 ) /**< AES HASH data input register 1 */
#define AES_HASH_DATA_IN_2 ( *(cc2538_reg_t*)0x4008b608 ) /**< AES HASH data input register 2 */
#define AES_HASH_DATA_IN_3 ( *(cc2538_reg_t*)0x4008b60c ) /**< AES HASH data input register 3 */
#define AES_HASH_DATA_IN_4 ( *(cc2538_reg_t*)0x4008b610 ) /**< AES HASH data input register 4 */
#define AES_HASH_DATA_IN_5 ( *(cc2538_reg_t*)0x4008b614 ) /**< AES HASH data input register 5 */
#define AES_HASH_DATA_IN_6 ( *(cc2538_reg_t*)0x4008b618 ) /**< AES HASH data input register 6 */
#define AES_HASH_DATA_IN_7 ( *(cc2538_reg_t*)0x4008b61c ) /**< AES HASH data input register 7 */
#define AES_HASH_DATA_IN_8 ( *(cc2538_reg_t*)0x4008b620 ) /**< AES HASH data input register 8 */
#define AES_HASH_DATA_IN_9 ( *(cc2538_reg_t*)0x4008b624 ) /**< AES HASH data input register 9 */
#define AES_HASH_DATA_IN_10 ( *(cc2538_reg_t*)0x4008b628 ) /**< AES HASH data input register 10 */
#define AES_HASH_DATA_IN_11 ( *(cc2538_reg_t*)0x4008b62c ) /**< AES HASH data input register 11 */
#define AES_HASH_DATA_IN_12 ( *(cc2538_reg_t*)0x4008b630 ) /**< AES HASH data input register 12 */
#define AES_HASH_DATA_IN_13 ( *(cc2538_reg_t*)0x4008b634 ) /**< AES HASH data input register 13 */
#define AES_HASH_DATA_IN_14 ( *(cc2538_reg_t*)0x4008b638 ) /**< AES HASH data input register 14 */
#define AES_HASH_DATA_IN_15 ( *(cc2538_reg_t*)0x4008b63c ) /**< AES HASH data input register 15 */
#define AES_HASH_IO_BUF_CTRL ( *(cc2538_reg_t*)0x4008b640 ) /**< AES Input/output buffer control and status register */
#define AES_HASH_MODE_IN ( *(cc2538_reg_t*)0x4008b644 ) /**< AES Hash mode register */
#define AES_HASH_LENGTH_IN_L ( *(cc2538_reg_t*)0x4008b648 ) /**< AES Hash length register */
#define AES_HASH_LENGTH_IN_H ( *(cc2538_reg_t*)0x4008b64c ) /**< AES Hash length register */
#define AES_HASH_DIGEST_A ( *(cc2538_reg_t*)0x4008b650 ) /**< AES Hash digest registers */
#define AES_HASH_DIGEST_B ( *(cc2538_reg_t*)0x4008b654 ) /**< AES Hash digest registers */
#define AES_HASH_DIGEST_C ( *(cc2538_reg_t*)0x4008b658 ) /**< AES Hash digest registers */
#define AES_HASH_DIGEST_D ( *(cc2538_reg_t*)0x4008b65c ) /**< AES Hash digest registers */
#define AES_HASH_DIGEST_E ( *(cc2538_reg_t*)0x4008b660 ) /**< AES Hash digest registers */
#define AES_HASH_DIGEST_F ( *(cc2538_reg_t*)0x4008b664 ) /**< AES Hash digest registers */
#define AES_HASH_DIGEST_G ( *(cc2538_reg_t*)0x4008b668 ) /**< AES Hash digest registers */
#define AES_HASH_DIGEST_H ( *(cc2538_reg_t*)0x4008b66c ) /**< AES Hash digest registers */
#define AES_CTRL_ALG_SEL ( *(cc2538_reg_t*)0x4008b700 ) /**< AES Algorithm select */
#define AES_CTRL_PROT_EN ( *(cc2538_reg_t*)0x4008b704 ) /**< AES Master PROT privileged access enable */
#define AES_CTRL_SW_RESET ( *(cc2538_reg_t*)0x4008b740 ) /**< AES Software reset */
#define AES_CTRL_INT_CFG ( *(cc2538_reg_t*)0x4008b780 ) /**< AES Interrupt configuration */
#define AES_CTRL_INT_EN ( *(cc2538_reg_t*)0x4008b784 ) /**< AES Interrupt enable */
#define AES_CTRL_INT_CLR ( *(cc2538_reg_t*)0x4008b788 ) /**< AES Interrupt clear */
#define AES_CTRL_INT_SET ( *(cc2538_reg_t*)0x4008b78c ) /**< AES Interrupt set */
#define AES_CTRL_INT_STAT ( *(cc2538_reg_t*)0x4008b790 ) /**< AES Interrupt status */
#define AES_CTRL_OPTIONS ( *(cc2538_reg_t*)0x4008b7f8 ) /**< AES Options register */
#define AES_CTRL_VERSION ( *(cc2538_reg_t*)0x4008b7fc ) /**< AES Version register */
#define SYS_CTRL_CLOCK_CTRL ( *(cc2538_reg_t*)0x400d2000 ) /**< Clock control register */
#define SYS_CTRL_CLOCK_STA ( *(cc2538_reg_t*)0x400d2004 ) /**< Clock status register */
#define SYS_CTRL_RCGCGPT ( *(cc2538_reg_t*)0x400d2008 ) /**< Module clocks for GPT[3:0] when the CPU is in active (run) mode */
#define SYS_CTRL_SCGCGPT ( *(cc2538_reg_t*)0x400d200c ) /**< Module clocks for GPT[3:0] when the CPU is in sleep mode */
#define SYS_CTRL_DCGCGPT ( *(cc2538_reg_t*)0x400d2010 ) /**< Module clocks for GPT[3:0] when the CPU is in PM0 */
#define SYS_CTRL_SRGPT ( *(cc2538_reg_t*)0x400d2014 ) /**< Reset for GPT[3:0]. */
#define SYS_CTRL_RCGCSSI ( *(cc2538_reg_t*)0x400d2018 ) /**< Module clocks for SSI[1:0] when the CPU is in active (run) mode */
#define SYS_CTRL_SCGCSSI ( *(cc2538_reg_t*)0x400d201c ) /**< Module clocks for SSI[1:0] when the CPU is insSleep mode */
#define SYS_CTRL_DCGCSSI ( *(cc2538_reg_t*)0x400d2020 ) /**< Module clocks for SSI[1:0] when the CPU is in PM0 */
#define SYS_CTRL_SRSSI ( *(cc2538_reg_t*)0x400d2024 ) /**< Reset for SSI[1:0]. */
#define SYS_CTRL_RCGCUART ( *(cc2538_reg_t*)0x400d2028 ) /**< Module clocks for UART[1:0] when the CPU is in active (run) mode */
#define SYS_CTRL_SCGCUART ( *(cc2538_reg_t*)0x400d202c ) /**< Module clocks for UART[1:0] when the CPU is in sleep mode */
#define SYS_CTRL_DCGCUART ( *(cc2538_reg_t*)0x400d2030 ) /**< Module clocks for UART[1:0] when the CPU is in PM0 */
#define SYS_CTRL_SRUART ( *(cc2538_reg_t*)0x400d2034 ) /**< Reset for UART[1:0]. */
#define SYS_CTRL_RCGCI2C ( *(cc2538_reg_t*)0x400d2038 ) /**< Module clocks for I2C when the CPU is in active (run) mode */
#define SYS_CTRL_SCGCI2C ( *(cc2538_reg_t*)0x400d203c ) /**< Module clocks for I2C when the CPU is in sleep mode */
#define SYS_CTRL_DCGCI2C ( *(cc2538_reg_t*)0x400d2040 ) /**< Module clocks for I2C when the CPU is in PM0 */
#define SYS_CTRL_SRI2C ( *(cc2538_reg_t*)0x400d2044 ) /**< Reset for I2C. */
#define SYS_CTRL_RCGCSEC ( *(cc2538_reg_t*)0x400d2048 ) /**< Module clocks for the security module when the CPU is in active (run) mode */
#define SYS_CTRL_SCGCSEC ( *(cc2538_reg_t*)0x400d204c ) /**< Module clocks for the security module when the CPU is in sleep mode */
#define SYS_CTRL_DCGCSEC ( *(cc2538_reg_t*)0x400d2050 ) /**< Module clocks for the security module when the CPU is in PM0 */
#define SYS_CTRL_SRSEC ( *(cc2538_reg_t*)0x400d2054 ) /**< Reset for the security module. */
#define SYS_CTRL_PMCTL ( *(cc2538_reg_t*)0x400d2058 ) /**< Power mode. */
#define SYS_CTRL_SRCRC ( *(cc2538_reg_t*)0x400d205c ) /**< CRC on state retention. */
#define SYS_CTRL_PWRDBG ( *(cc2538_reg_t*)0x400d2074 ) /**< Power debug register */
#define SYS_CTRL_CLD ( *(cc2538_reg_t*)0x400d2080 ) /**< This register controls the clock loss detection feature. */
#define SYS_CTRL_IWE ( *(cc2538_reg_t*)0x400d2094 ) /**< This register controls interrupt wake-up. */
#define SYS_CTRL_I_MAP ( *(cc2538_reg_t*)0x400d2098 ) /**< This register selects which interrupt map to be used. */
#define SYS_CTRL_RCGCRFC ( *(cc2538_reg_t*)0x400d20a8 ) /**< This register defines the module clocks for RF CORE when the CPU is in active (run) mode */
#define SYS_CTRL_SCGCRFC ( *(cc2538_reg_t*)0x400d20ac ) /**< This register defines the module clocks for RF CORE when the CPU is in sleep mode */
#define SYS_CTRL_DCGCRFC ( *(cc2538_reg_t*)0x400d20b0 ) /**< This register defines the module clocks for RF CORE when the CPU is in PM0 */
#define SYS_CTRL_EMUOVR ( *(cc2538_reg_t*)0x400d20b4 ) /**< This register defines the emulator override controls for power mode and peripheral clock gate. */
#define FLASH_CTRL_FCTL ( *(cc2538_reg_t*)0x400d3008 ) /**< Flash control */
#define FLASH_CTRL_FADDR ( *(cc2538_reg_t*)0x400d300c ) /**< Flash address */
#define FLASH_CTRL_FWDATA ( *(cc2538_reg_t*)0x400d3010 ) /**< Flash data */
#define FLASH_CTRL_DIECFG0 ( *(cc2538_reg_t*)0x400d3014 ) /**< Flash Die Configuration 0 */
#define FLASH_CTRL_DIECFG1 ( *(cc2538_reg_t*)0x400d3018 ) /**< Flash Die Configuration 1 */
#define FLASH_CTRL_DIECFG2 ( *(cc2538_reg_t*)0x400d301c ) /**< Flash Die Configuration 2 */
#define IOC_PA0_SEL ( *(cc2538_reg_t*)0x400d4000 ) /**< Peripheral select control for PA0 */
#define IOC_PA1_SEL ( *(cc2538_reg_t*)0x400d4004 ) /**< Peripheral select control for PA1 */
#define IOC_PA2_SEL ( *(cc2538_reg_t*)0x400d4008 ) /**< Peripheral select control for PA2 */
#define IOC_PA3_SEL ( *(cc2538_reg_t*)0x400d400c ) /**< Peripheral select control for PA3 */
#define IOC_PA4_SEL ( *(cc2538_reg_t*)0x400d4010 ) /**< Peripheral select control for PA4 */
#define IOC_PA5_SEL ( *(cc2538_reg_t*)0x400d4014 ) /**< Peripheral select control for PA5 */
#define IOC_PA6_SEL ( *(cc2538_reg_t*)0x400d4018 ) /**< Peripheral select control for PA6 */
#define IOC_PA7_SEL ( *(cc2538_reg_t*)0x400d401c ) /**< Peripheral select control for PA7 */
#define IOC_PB0_SEL ( *(cc2538_reg_t*)0x400d4020 ) /**< Peripheral select control for PB0 */
#define IOC_PB1_SEL ( *(cc2538_reg_t*)0x400d4024 ) /**< Peripheral select control for PB1 */
#define IOC_PB2_SEL ( *(cc2538_reg_t*)0x400d4028 ) /**< Peripheral select control for PB2 */
#define IOC_PB3_SEL ( *(cc2538_reg_t*)0x400d402c ) /**< Peripheral select control for PB3 */
#define IOC_PB4_SEL ( *(cc2538_reg_t*)0x400d4030 ) /**< Peripheral select control for PB4 */
#define IOC_PB5_SEL ( *(cc2538_reg_t*)0x400d4034 ) /**< Peripheral select control for PB5 */
#define IOC_PB6_SEL ( *(cc2538_reg_t*)0x400d4038 ) /**< Peripheral select control for PB6 */
#define IOC_PB7_SEL ( *(cc2538_reg_t*)0x400d403c ) /**< Peripheral select control for PB7 */
#define IOC_PC0_SEL ( *(cc2538_reg_t*)0x400d4040 ) /**< Peripheral select control for PC0 */
#define IOC_PC1_SEL ( *(cc2538_reg_t*)0x400d4044 ) /**< Peripheral select control for PC1 */
#define IOC_PC2_SEL ( *(cc2538_reg_t*)0x400d4048 ) /**< Peripheral select control for PC2 */
#define IOC_PC3_SEL ( *(cc2538_reg_t*)0x400d404c ) /**< Peripheral select control for PC3 */
#define IOC_PC4_SEL ( *(cc2538_reg_t*)0x400d4050 ) /**< Peripheral select control for PC4 */
#define IOC_PC5_SEL ( *(cc2538_reg_t*)0x400d4054 ) /**< Peripheral select control for PC5 */
#define IOC_PC6_SEL ( *(cc2538_reg_t*)0x400d4058 ) /**< Peripheral select control for PC6 */
#define IOC_PC7_SEL ( *(cc2538_reg_t*)0x400d405c ) /**< Peripheral select control for PC7 */
#define IOC_PD0_SEL ( *(cc2538_reg_t*)0x400d4060 ) /**< Peripheral select control for PD0 */
#define IOC_PD1_SEL ( *(cc2538_reg_t*)0x400d4064 ) /**< Peripheral select control for PD1 */
#define IOC_PD2_SEL ( *(cc2538_reg_t*)0x400d4068 ) /**< Peripheral select control for PD2 */
#define IOC_PD3_SEL ( *(cc2538_reg_t*)0x400d406c ) /**< Peripheral select control for PD3 */
#define IOC_PD4_SEL ( *(cc2538_reg_t*)0x400d4070 ) /**< Peripheral select control for PD4 */
#define IOC_PD5_SEL ( *(cc2538_reg_t*)0x400d4074 ) /**< Peripheral select control for PD5 */
#define IOC_PD6_SEL ( *(cc2538_reg_t*)0x400d4078 ) /**< Peripheral select control for PD6 */
#define IOC_PD7_SEL ( *(cc2538_reg_t*)0x400d407c ) /**< Peripheral select control for PD7 */
#define IOC_PA0_OVER ( *(cc2538_reg_t*)0x400d4080 ) /**< Overide configuration register for PA0. */
#define IOC_PA1_OVER ( *(cc2538_reg_t*)0x400d4084 ) /**< Overide configuration register for PA1. */
#define IOC_PA2_OVER ( *(cc2538_reg_t*)0x400d4088 ) /**< Overide configuration register for PA2. */
#define IOC_PA3_OVER ( *(cc2538_reg_t*)0x400d408c ) /**< Overide configuration register for PA3. */
#define IOC_PA4_OVER ( *(cc2538_reg_t*)0x400d4090 ) /**< Overide configuration register for PA4. */
#define IOC_PA5_OVER ( *(cc2538_reg_t*)0x400d4094 ) /**< Overide configuration register for PA5. */
#define IOC_PA6_OVER ( *(cc2538_reg_t*)0x400d4098 ) /**< Overide configuration register for PA6. */
#define IOC_PA7_OVER ( *(cc2538_reg_t*)0x400d409c ) /**< Overide configuration register for PA7. */
#define IOC_PB0_OVER ( *(cc2538_reg_t*)0x400d40a0 ) /**< Overide configuration register for PB0. */
#define IOC_PB1_OVER ( *(cc2538_reg_t*)0x400d40a4 ) /**< Overide configuration register for PB1. */
#define IOC_PB2_OVER ( *(cc2538_reg_t*)0x400d40a8 ) /**< Overide configuration register for PB2. */
#define IOC_PB3_OVER ( *(cc2538_reg_t*)0x400d40ac ) /**< Overide configuration register for PB3. */
#define IOC_PB4_OVER ( *(cc2538_reg_t*)0x400d40b0 ) /**< Overide configuration register for PB4. */
#define IOC_PB5_OVER ( *(cc2538_reg_t*)0x400d40b4 ) /**< Overide configuration register for PB5. */
#define IOC_PB6_OVER ( *(cc2538_reg_t*)0x400d40b8 ) /**< Overide configuration register for PB6. */
#define IOC_PB7_OVER ( *(cc2538_reg_t*)0x400d40bc ) /**< Overide configuration register for PB7. */
#define IOC_PC0_OVER ( *(cc2538_reg_t*)0x400d40c0 ) /**< Overide configuration register for PC0. PC0 has high drive capability. */
#define IOC_PC1_OVER ( *(cc2538_reg_t*)0x400d40c4 ) /**< Overide configuration register for PC1. PC1 has high drive capability. */
#define IOC_PC2_OVER ( *(cc2538_reg_t*)0x400d40c8 ) /**< Overide configuration register for PC2. PC2 has high drive capability. */
#define IOC_PC3_OVER ( *(cc2538_reg_t*)0x400d40cc ) /**< Overide configuration register for PC3. PC3 has high drive capability. */
#define IOC_PC4_OVER ( *(cc2538_reg_t*)0x400d40d0 ) /**< Overide configuration register for PC4. */
#define IOC_PC5_OVER ( *(cc2538_reg_t*)0x400d40d4 ) /**< Overide configuration register for PC5. */
#define IOC_PC6_OVER ( *(cc2538_reg_t*)0x400d40d8 ) /**< Overide configuration register for PC6. */
#define IOC_PC7_OVER ( *(cc2538_reg_t*)0x400d40dc ) /**< Overide configuration register for PC7. */
#define IOC_PD0_OVER ( *(cc2538_reg_t*)0x400d40e0 ) /**< Overide configuration register for PD0. */
#define IOC_PD1_OVER ( *(cc2538_reg_t*)0x400d40e4 ) /**< Overide configuration register for PD1. */
#define IOC_PD2_OVER ( *(cc2538_reg_t*)0x400d40e8 ) /**< Overide configuration register for PD2. */
#define IOC_PD3_OVER ( *(cc2538_reg_t*)0x400d40ec ) /**< Overide configuration register for PD3. */
#define IOC_PD4_OVER ( *(cc2538_reg_t*)0x400d40f0 ) /**< Overide configuration register for PD4. */
#define IOC_PD5_OVER ( *(cc2538_reg_t*)0x400d40f4 ) /**< Overide configuration register for PD5. */
#define IOC_PD6_OVER ( *(cc2538_reg_t*)0x400d40f8 ) /**< Overide configuration register for PD6. */
#define IOC_PD7_OVER ( *(cc2538_reg_t*)0x400d40fc ) /**< Overide configuration register for PD7. */
#define IOC_UARTRXD_UART0 ( *(cc2538_reg_t*)0x400d4100 ) /**< Pin selection for UART0 RX. */
#define IOC_UARTCTS_UART1 ( *(cc2538_reg_t*)0x400d4104 ) /**< Pin selection for UART1 CTS. */
#define IOC_UARTRXD_UART1 ( *(cc2538_reg_t*)0x400d4108 ) /**< Pin selection for UART1 RX. */
#define IOC_CLK_SSI_SSI0 ( *(cc2538_reg_t*)0x400d410c ) /**< Pin selection for SSI0 CLK. */
#define IOC_SSIRXD_SSI0 ( *(cc2538_reg_t*)0x400d4110 ) /**< Pin selection for SSI0 RX. */
#define IOC_SSIFSSIN_SSI0 ( *(cc2538_reg_t*)0x400d4114 ) /**< Pin selection for SSI0 FSSIN. */
#define IOC_CLK_SSIIN_SSI0 ( *(cc2538_reg_t*)0x400d4118 ) /**< Pin selection for SSI0 CLK_SSIN. */
#define IOC_CLK_SSI_SSI1 ( *(cc2538_reg_t*)0x400d411c ) /**< Pin selection for SSI1 CLK. */
#define IOC_SSIRXD_SSI1 ( *(cc2538_reg_t*)0x400d4120 ) /**< Pin selection for SSI1 RX. */
#define IOC_SSIFSSIN_SSI1 ( *(cc2538_reg_t*)0x400d4124 ) /**< Pin selection for SSI1 FSSIN. */
#define IOC_CLK_SSIIN_SSI1 ( *(cc2538_reg_t*)0x400d4128 ) /**< Pin selection for SSI1 CLK_SSIN. */
#define IOC_I2CMSSDA ( *(cc2538_reg_t*)0x400d412c ) /**< Pin selection for I2C SDA. */
#define IOC_I2CMSSCL ( *(cc2538_reg_t*)0x400d4130 ) /**< Pin selection for I2C SCL. */
#define IOC_GPT0OCP1 ( *(cc2538_reg_t*)0x400d4134 ) /**< Pin selection for GPT0OCP1. */
#define IOC_GPT0OCP2 ( *(cc2538_reg_t*)0x400d4138 ) /**< Pin selection for GPT0OCP2. */
#define IOC_GPT1OCP1 ( *(cc2538_reg_t*)0x400d413c ) /**< Pin selection for GPT1OCP1. */
#define IOC_GPT1OCP2 ( *(cc2538_reg_t*)0x400d4140 ) /**< Pin selection for GPT1OCP2. */
#define IOC_GPT2OCP1 ( *(cc2538_reg_t*)0x400d4144 ) /**< Pin selection for GPT2OCP1. */
#define IOC_GPT2OCP2 ( *(cc2538_reg_t*)0x400d4148 ) /**< Pin selection for GPT2OCP2. */
#define IOC_GPT3OCP1 ( *(cc2538_reg_t*)0x400d414c ) /**< Pin selection for GPT3OCP1. */
#define IOC_GPT3OCP2 ( *(cc2538_reg_t*)0x400d4150 ) /**< Pin selection for GPT3OCP2. */
#define SMWDTHROSC_WDCTL ( *(cc2538_reg_t*)0x400d5000 ) /**< Watchdog Timer Control */
#define SMWDTHROSC_ST0 ( *(cc2538_reg_t*)0x400d5040 ) /**< Sleep Timer 0 count and compare */
#define SMWDTHROSC_ST1 ( *(cc2538_reg_t*)0x400d5044 ) /**< Sleep Timer 1 count and compare */
#define SMWDTHROSC_ST2 ( *(cc2538_reg_t*)0x400d5048 ) /**< Sleep Timer 2 count and compare */
#define SMWDTHROSC_ST3 ( *(cc2538_reg_t*)0x400d504c ) /**< Sleep Timer 3 count and compare */
#define SMWDTHROSC_STLOAD ( *(cc2538_reg_t*)0x400d5050 ) /**< Sleep Timer load status */
#define SMWDTHROSC_STCC ( *(cc2538_reg_t*)0x400d5054 ) /**< Sleep Timer Capture control */
#define SMWDTHROSC_STCS ( *(cc2538_reg_t*)0x400d5058 ) /**< Sleep Timer Capture status */
#define SMWDTHROSC_STCV0 ( *(cc2538_reg_t*)0x400d505c ) /**< Sleep Timer Capture value byte 0 */
#define SMWDTHROSC_STCV1 ( *(cc2538_reg_t*)0x400d5060 ) /**< Sleep Timer Capture value byte 1 */
#define SMWDTHROSC_STCV2 ( *(cc2538_reg_t*)0x400d5064 ) /**< Sleep Timer Capture value byte 2 */
#define SMWDTHROSC_STCV3 ( *(cc2538_reg_t*)0x400d5068 ) /**< Sleep Timer Capture value byte 3 */
#define ANA_REGS_IVCTRL ( *(cc2538_reg_t*)0x400d6004 ) /**< Analog control register */
#define SOC_ADC_ADCCON1 ( *(cc2538_reg_t*)0x400d7000 ) /**< ADC Control Register 1 */
#define SOC_ADC_ADCCON2 ( *(cc2538_reg_t*)0x400d7004 ) /**< ADC Control Register 2 */
#define SOC_ADC_ADCCON3 ( *(cc2538_reg_t*)0x400d7008 ) /**< ADC Control Register 3 */
#define SOC_ADC_ADCL ( *(cc2538_reg_t*)0x400d700c ) /**< Least-significant part of ADC conversion result. */
#define SOC_ADC_ADCH ( *(cc2538_reg_t*)0x400d7010 ) /**< Most-significant part of ADC conversion result. */
#define SOC_ADC_RNDL ( *(cc2538_reg_t*)0x400d7014 ) /**< Random-number-generator data; low byte. */
#define SOC_ADC_RNDH ( *(cc2538_reg_t*)0x400d7018 ) /**< Random-number-generator data; high byte. */
#define SOC_ADC_CMPCTL ( *(cc2538_reg_t*)0x400d7024 ) /**< Analog comparator control and status register. */
#define GPIO_A_DATA ( *(cc2538_reg_t*)0x400d9000 ) /**< GPIO_A Data Register */
#define GPIO_A_DIR ( *(cc2538_reg_t*)0x400d9400 ) /**< GPIO_A data direction register */
#define GPIO_A_IS ( *(cc2538_reg_t*)0x400d9404 ) /**< GPIO_A Interrupt Sense register */
#define GPIO_A_IBE ( *(cc2538_reg_t*)0x400d9408 ) /**< GPIO_A Interrupt Both-Edges register */
#define GPIO_A_IEV ( *(cc2538_reg_t*)0x400d940c ) /**< GPIO_A Interrupt Event Register */
#define GPIO_A_IE ( *(cc2538_reg_t*)0x400d9410 ) /**< GPIO_A Interrupt mask register */
#define GPIO_A_RIS ( *(cc2538_reg_t*)0x400d9414 ) /**< GPIO_A Raw Interrupt Status register */
#define GPIO_A_MIS ( *(cc2538_reg_t*)0x400d9418 ) /**< GPIO_A Masked Interrupt Status register */
#define GPIO_A_IC ( *(cc2538_reg_t*)0x400d941c ) /**< GPIO_A Interrupt Clear register */
#define GPIO_A_AFSEL ( *(cc2538_reg_t*)0x400d9420 ) /**< GPIO_A Alternate Function / mode control select register */
#define GPIO_A_GPIOLOCK ( *(cc2538_reg_t*)0x400d9520 ) /**< GPIO_A Lock register */
#define GPIO_A_GPIOCR ( *(cc2538_reg_t*)0x400d9524 ) /**< GPIO_A Commit Register */
#define GPIO_A_PMUX ( *(cc2538_reg_t*)0x400d9700 ) /**< GPIO_A The PMUX register */
#define GPIO_A_P_EDGE_CTRL ( *(cc2538_reg_t*)0x400d9704 ) /**< GPIO_A The Port Edge Control register */
#define GPIO_A_PI_IEN ( *(cc2538_reg_t*)0x400d9710 ) /**< GPIO_A The Power-up Interrupt Enable register */
#define GPIO_A_IRQ_DETECT_ACK ( *(cc2538_reg_t*)0x400d9718 ) /**< GPIO_A IRQ Detect ACK register */
#define GPIO_A_USB_IRQ_ACK ( *(cc2538_reg_t*)0x400d971c ) /**< GPIO_A IRQ Detect ACK for USB */
#define GPIO_A_IRQ_DETECT_UNMASK ( *(cc2538_reg_t*)0x400d9720 ) /**< GPIO_A IRQ Detect ACK for masked interrupts */
#define GPIO_B_DATA ( *(cc2538_reg_t*)0x400da000 ) /**< GPIO Data Register */
#define GPIO_B_DIR ( *(cc2538_reg_t*)0x400da400 ) /**< GPIO_B data direction register */
#define GPIO_B_IS ( *(cc2538_reg_t*)0x400da404 ) /**< GPIO_B Interrupt Sense register */
#define GPIO_B_IBE ( *(cc2538_reg_t*)0x400da408 ) /**< GPIO_B Interrupt Both-Edges register */
#define GPIO_B_IEV ( *(cc2538_reg_t*)0x400da40c ) /**< GPIO_B Interrupt Event Register */
#define GPIO_B_IE ( *(cc2538_reg_t*)0x400da410 ) /**< GPIO_B Interrupt mask register */
#define GPIO_B_RIS ( *(cc2538_reg_t*)0x400da414 ) /**< GPIO_B Raw Interrupt Status register */
#define GPIO_B_MIS ( *(cc2538_reg_t*)0x400da418 ) /**< GPIO_B Masked Interrupt Status register */
#define GPIO_B_IC ( *(cc2538_reg_t*)0x400da41c ) /**< GPIO_B Interrupt Clear register */
#define GPIO_B_AFSEL ( *(cc2538_reg_t*)0x400da420 ) /**< GPIO_B Alternate Function / mode control select register */
#define GPIO_B_GPIOLOCK ( *(cc2538_reg_t*)0x400da520 ) /**< GPIO_B Lock register */
#define GPIO_B_GPIOCR ( *(cc2538_reg_t*)0x400da524 ) /**< GPIO_B Commit Register */
#define GPIO_B_PMUX ( *(cc2538_reg_t*)0x400da700 ) /**< GPIO_B The PMUX register */
#define GPIO_B_P_EDGE_CTRL ( *(cc2538_reg_t*)0x400da704 ) /**< GPIO_B The Port Edge Control register */
#define GPIO_B_PI_IEN ( *(cc2538_reg_t*)0x400da710 ) /**< GPIO_B The Power-up Interrupt Enable register */
#define GPIO_B_IRQ_DETECT_ACK ( *(cc2538_reg_t*)0x400da718 ) /**< GPIO_B IRQ Detect ACK register */
#define GPIO_B_USB_IRQ_ACK ( *(cc2538_reg_t*)0x400da71c ) /**< GPIO_B IRQ Detect ACK for USB */
#define GPIO_B_IRQ_DETECT_UNMASK ( *(cc2538_reg_t*)0x400da720 ) /**< GPIO_B IRQ Detect ACK for masked interrupts */
#define GPIO_C_DATA ( *(cc2538_reg_t*)0x400db000 ) /**< GPIO_C Data Register */
#define GPIO_C_DIR ( *(cc2538_reg_t*)0x400db400 ) /**< GPIO_C data direction register */
#define GPIO_C_IS ( *(cc2538_reg_t*)0x400db404 ) /**< GPIO_C Interrupt Sense register */
#define GPIO_C_IBE ( *(cc2538_reg_t*)0x400db408 ) /**< GPIO_C Interrupt Both-Edges register */
#define GPIO_C_IEV ( *(cc2538_reg_t*)0x400db40c ) /**< GPIO_C Interrupt Event Register */
#define GPIO_C_IE ( *(cc2538_reg_t*)0x400db410 ) /**< GPIO_C Interrupt mask register */
#define GPIO_C_RIS ( *(cc2538_reg_t*)0x400db414 ) /**< GPIO_C Raw Interrupt Status register */
#define GPIO_C_MIS ( *(cc2538_reg_t*)0x400db418 ) /**< GPIO_C Masked Interrupt Status register */
#define GPIO_C_IC ( *(cc2538_reg_t*)0x400db41c ) /**< GPIO_C Interrupt Clear register */
#define GPIO_C_AFSEL ( *(cc2538_reg_t*)0x400db420 ) /**< GPIO_C Alternate Function / mode control select register */
#define GPIO_C_GPIOLOCK ( *(cc2538_reg_t*)0x400db520 ) /**< GPIO_C Lock register */
#define GPIO_C_GPIOCR ( *(cc2538_reg_t*)0x400db524 ) /**< GPIO_C Commit Register */
#define GPIO_C_PMUX ( *(cc2538_reg_t*)0x400db700 ) /**< GPIO_C The PMUX register */
#define GPIO_C_P_EDGE_CTRL ( *(cc2538_reg_t*)0x400db704 ) /**< GPIO_C The Port Edge Control register */
#define GPIO_C_PI_IEN ( *(cc2538_reg_t*)0x400db710 ) /**< GPIO_C The Power-up Interrupt Enable register */
#define GPIO_C_IRQ_DETECT_ACK ( *(cc2538_reg_t*)0x400db718 ) /**< GPIO_C IRQ Detect ACK register */
#define GPIO_C_USB_IRQ_ACK ( *(cc2538_reg_t*)0x400db71c ) /**< GPIO_C IRQ Detect ACK for USB */
#define GPIO_C_IRQ_DETECT_UNMASK ( *(cc2538_reg_t*)0x400db720 ) /**< GPIO_C IRQ Detect ACK for masked interrupts */
#define GPIO_D_DATA ( *(cc2538_reg_t*)0x400dc000 ) /**< GPIO_D Data Register */
#define GPIO_D_DIR ( *(cc2538_reg_t*)0x400dc400 ) /**< GPIO_D data direction register */
#define GPIO_D_IS ( *(cc2538_reg_t*)0x400dc404 ) /**< GPIO_D Interrupt Sense register */
#define GPIO_D_IBE ( *(cc2538_reg_t*)0x400dc408 ) /**< GPIO_D Interrupt Both-Edges register */
#define GPIO_D_IEV ( *(cc2538_reg_t*)0x400dc40c ) /**< GPIO_D Interrupt Event Register */
#define GPIO_D_IE ( *(cc2538_reg_t*)0x400dc410 ) /**< GPIO_D Interrupt mask register */
#define GPIO_D_RIS ( *(cc2538_reg_t*)0x400dc414 ) /**< GPIO_D Raw Interrupt Status register */
#define GPIO_D_MIS ( *(cc2538_reg_t*)0x400dc418 ) /**< GPIO_D Masked Interrupt Status register */
#define GPIO_D_IC ( *(cc2538_reg_t*)0x400dc41c ) /**< GPIO_D Interrupt Clear register */
#define GPIO_D_AFSEL ( *(cc2538_reg_t*)0x400dc420 ) /**< GPIO_D Alternate Function / mode control select register */
#define GPIO_D_GPIOLOCK ( *(cc2538_reg_t*)0x400dc520 ) /**< GPIO_D Lock register */
#define GPIO_D_GPIOCR ( *(cc2538_reg_t*)0x400dc524 ) /**< GPIO_D Commit Register */
#define GPIO_D_PMUX ( *(cc2538_reg_t*)0x400dc700 ) /**< GPIO_D The PMUX register */
#define GPIO_D_P_EDGE_CTRL ( *(cc2538_reg_t*)0x400dc704 ) /**< GPIO_D The Port Edge Control register */
#define GPIO_D_PI_IEN ( *(cc2538_reg_t*)0x400dc710 ) /**< GPIO_D The Power-up Interrupt Enable register */
#define GPIO_D_IRQ_DETECT_ACK ( *(cc2538_reg_t*)0x400dc718 ) /**< GPIO_D IRQ Detect ACK register */
#define GPIO_D_USB_IRQ_ACK ( *(cc2538_reg_t*)0x400dc71c ) /**< GPIO_D IRQ Detect ACK for USB */
#define GPIO_D_IRQ_DETECT_UNMASK ( *(cc2538_reg_t*)0x400dc720 ) /**< GPIO_D IRQ Detect ACK for masked interrupts */
#define UDMA_STAT ( *(cc2538_reg_t*)0x400ff000 ) /**< DMA status */
#define UDMA_CFG ( *(cc2538_reg_t*)0x400ff004 ) /**< DMA configuration */
#define UDMA_CTLBASE ( *(cc2538_reg_t*)0x400ff008 ) /**< DMA channel control base pointer */
#define UDMA_ALTBASE ( *(cc2538_reg_t*)0x400ff00c ) /**< DMA alternate channel control base pointer */
#define UDMA_WAITSTAT ( *(cc2538_reg_t*)0x400ff010 ) /**< DMA channel wait-on-request status */
#define UDMA_SWREQ ( *(cc2538_reg_t*)0x400ff014 ) /**< DMA channel software request */
#define UDMA_USEBURSTSET ( *(cc2538_reg_t*)0x400ff018 ) /**< DMA channel useburst set */
#define UDMA_USEBURSTCLR ( *(cc2538_reg_t*)0x400ff01c ) /**< DMA channel useburst clear */
#define UDMA_REQMASKSET ( *(cc2538_reg_t*)0x400ff020 ) /**< DMA channel request mask set */
#define UDMA_REQMASKCLR ( *(cc2538_reg_t*)0x400ff024 ) /**< DMA channel request mask clear */
#define UDMA_ENASET ( *(cc2538_reg_t*)0x400ff028 ) /**< DMA channel enable set */
#define UDMA_ENACLR ( *(cc2538_reg_t*)0x400ff02c ) /**< DMA channel enable clear */
#define UDMA_ALTSET ( *(cc2538_reg_t*)0x400ff030 ) /**< DMA channel primary alternate set */
#define UDMA_ALTCLR ( *(cc2538_reg_t*)0x400ff034 ) /**< DMA channel primary alternate clear */
#define UDMA_PRIOSET ( *(cc2538_reg_t*)0x400ff038 ) /**< DMA channel priority set */
#define UDMA_PRIOCLR ( *(cc2538_reg_t*)0x400ff03c ) /**< DMA channel priority clear */
#define UDMA_ERRCLR ( *(cc2538_reg_t*)0x400ff04c ) /**< DMA bus error clear */
#define UDMA_CHASGN ( *(cc2538_reg_t*)0x400ff500 ) /**< DMA channel assignment */
#define UDMA_CHIS ( *(cc2538_reg_t*)0x400ff504 ) /**< DMA channel interrupt status */
#define UDMA_CHMAP0 ( *(cc2538_reg_t*)0x400ff510 ) /**< DMA channel map select 0 */
#define UDMA_CHMAP1 ( *(cc2538_reg_t*)0x400ff514 ) /**< DMA channel map select 1 */
#define UDMA_CHMAP2 ( *(cc2538_reg_t*)0x400ff518 ) /**< DMA channel map select 2 */
#define UDMA_CHMAP3 ( *(cc2538_reg_t*)0x400ff51c ) /**< DMA channel map select 3 */
#define PKA_APTR ( *(cc2538_reg_t*)0x44004000 ) /**< PKA vector A address */
#define PKA_BPTR ( *(cc2538_reg_t*)0x44004004 ) /**< PKA vector B address */
#define PKA_CPTR ( *(cc2538_reg_t*)0x44004008 ) /**< PKA vector C address */
#define PKA_DPTR ( *(cc2538_reg_t*)0x4400400c ) /**< PKA vector D address */
#define PKA_ALENGTH ( *(cc2538_reg_t*)0x44004010 ) /**< PKA vector A length */
#define PKA_BLENGTH ( *(cc2538_reg_t*)0x44004014 ) /**< PKA vector B length */
#define PKA_SHIFT ( *(cc2538_reg_t*)0x44004018 ) /**< PKA bit shift value */
#define PKA_FUNCTION ( *(cc2538_reg_t*)0x4400401c ) /**< PKA function */
#define PKA_COMPARE ( *(cc2538_reg_t*)0x44004020 ) /**< PKA compare result */
#define PKA_MSW ( *(cc2538_reg_t*)0x44004024 ) /**< PKA most-significant-word of result vector */
#define PKA_DIVMSW ( *(cc2538_reg_t*)0x44004028 ) /**< PKA most-significant-word of divide remainder */
#define PKA_SEQ_CTRL ( *(cc2538_reg_t*)0x440040c8 ) /**< PKA sequencer control and status register */
#define PKA_OPTIONS ( *(cc2538_reg_t*)0x440040f4 ) /**< PKA hardware options register */
#define PKA_SW_REV ( *(cc2538_reg_t*)0x440040f8 ) /**< PKA firmware revision and capabilities register */
#define PKA_REVISION ( *(cc2538_reg_t*)0x440040fc ) /**< PKA hardware revision register */
#define CCTEST_IO ( *(cc2538_reg_t*)0x44010000 ) /**< Output strength control */
#define CCTEST_OBSSEL0 ( *(cc2538_reg_t*)0x44010014 ) /**< CCTEST Select output signal on observation output 0 */
#define CCTEST_OBSSEL1 ( *(cc2538_reg_t*)0x44010018 ) /**< CCTEST Select output signal on observation output 1 */
#define CCTEST_OBSSEL2 ( *(cc2538_reg_t*)0x4401001c ) /**< CCTEST Select output signal on observation output 2 */
#define CCTEST_OBSSEL3 ( *(cc2538_reg_t*)0x44010020 ) /**< CCTEST Select output signal on observation output 3 */
#define CCTEST_OBSSEL4 ( *(cc2538_reg_t*)0x44010024 ) /**< CCTEST Select output signal on observation output 4 */
#define CCTEST_OBSSEL5 ( *(cc2538_reg_t*)0x44010028 ) /**< CCTEST Select output signal on observation output 5 */
#define CCTEST_OBSSEL6 ( *(cc2538_reg_t*)0x4401002c ) /**< CCTEST Select output signal on observation output 6 */
#define CCTEST_OBSSEL7 ( *(cc2538_reg_t*)0x44010030 ) /**< CCTEST Select output signal on observation output 7 */
#define CCTEST_TR0 ( *(cc2538_reg_t*)0x44010034 ) /**< CCTEST Test register 0 */
#define CCTEST_USBCTRL ( *(cc2538_reg_t*)0x44010050 ) /**< CCTEST USB PHY stand-by control */
/** @} */
#define XOSC32M_FREQ 32000000 /**< 32 MHz external oscillator/clock frequency */
#define RCOSC16M_FREQ 16000000 /**< 16 MHz internal RC oscillator frequency */
#define CC2538_VTOR_ALIGN 512 /**< CC2538 Vector Table alignment */
#ifdef __cplusplus
}
#endif
#endif /* _CC2538_ */
/*@}*/
|