xref: /freebsd/sys/contrib/alpine-hal/al_hal_serdes_internal_regs.h (revision 63d1fd5970ec814904aa0f4580b10a0d302d08b2)
1 /*-
2 *******************************************************************************
3 Copyright (C) 2015 Annapurna Labs Ltd.
4 
5 This file may be licensed under the terms of the Annapurna Labs Commercial
6 License Agreement.
7 
8 Alternatively, this file can be distributed under the terms of the GNU General
9 Public License V2 as published by the Free Software Foundation and can be
10 found at http://www.gnu.org/licenses/gpl-2.0.html
11 
12 Alternatively, redistribution and use in source and binary forms, with or
13 without modification, are permitted provided that the following conditions are
14 met:
15 
16     *     Redistributions of source code must retain the above copyright notice,
17 this list of conditions and the following disclaimer.
18 
19     *     Redistributions in binary form must reproduce the above copyright
20 notice, this list of conditions and the following disclaimer in
21 the documentation and/or other materials provided with the
22 distribution.
23 
24 THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
25 ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
26 WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
27 DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR
28 ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
29 (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
30 LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
31 ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
32 (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
33 SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
34 
35 *******************************************************************************/
36 #ifndef __AL_SERDES_INTERNAL_REGS_H__
37 #define  __AL_SERDES_INTERNAL_REGS_H__
38 
39 #ifdef __cplusplus
40 extern "C" {
41 #endif
42 
43 /*******************************************************************************
44  * Per lane register fields
45  ******************************************************************************/
46 /*
47  * RX and TX lane hard reset
48  * 0 - Hard reset is asserted
49  * 1 - Hard reset is de-asserted
50  */
51 #define SERDES_IREG_FLD_CMNCTLPOR_HARDRSTBYPASS_REG_NUM			2
52 #define SERDES_IREG_FLD_CMNCTLPOR_HARDRSTBYPASS_MASK			0x01
53 #define SERDES_IREG_FLD_CMNCTLPOR_HARDRSTBYPASS_VAL_ASSERT		0x00
54 #define SERDES_IREG_FLD_CMNCTLPOR_HARDRSTBYPASS_VAL_DEASSERT		0x01
55 
56 /*
57  * RX and TX lane hard reset control
58  * 0 - Hard reset is taken from the interface pins
59  * 1 - Hard reset is taken from registers
60  */
61 #define SERDES_IREG_FLD_CMNCTLPOR_HARDRSTBYPASSEN_REG_NUM		2
62 #define SERDES_IREG_FLD_CMNCTLPOR_HARDRSTBYPASSEN_MASK			0x02
63 #define SERDES_IREG_FLD_CMNCTLPOR_HARDRSTBYPASSEN_VAL_IFACE		0x00
64 #define SERDES_IREG_FLD_CMNCTLPOR_HARDRSTBYPASSEN_VAL_REGS		0x02
65 
66 /* RX lane power state control */
67 #define SERDES_IREG_FLD_LANEPCSPSTATE_RX_REG_NUM			3
68 #define SERDES_IREG_FLD_LANEPCSPSTATE_RX_MASK				0x1f
69 #define SERDES_IREG_FLD_LANEPCSPSTATE_RX_VAL_PD				0x01
70 #define SERDES_IREG_FLD_LANEPCSPSTATE_RX_VAL_P2				0x02
71 #define SERDES_IREG_FLD_LANEPCSPSTATE_RX_VAL_P1				0x04
72 #define SERDES_IREG_FLD_LANEPCSPSTATE_RX_VAL_P0S			0x08
73 #define SERDES_IREG_FLD_LANEPCSPSTATE_RX_VAL_P0				0x10
74 
75 /* TX lane power state control */
76 #define SERDES_IREG_FLD_LANEPCSPSTATE_TX_REG_NUM			4
77 #define SERDES_IREG_FLD_LANEPCSPSTATE_TX_MASK				0x1f
78 #define SERDES_IREG_FLD_LANEPCSPSTATE_TX_VAL_PD				0x01
79 #define SERDES_IREG_FLD_LANEPCSPSTATE_TX_VAL_P2				0x02
80 #define SERDES_IREG_FLD_LANEPCSPSTATE_TX_VAL_P1				0x04
81 #define SERDES_IREG_FLD_LANEPCSPSTATE_TX_VAL_P0S			0x08
82 #define SERDES_IREG_FLD_LANEPCSPSTATE_TX_VAL_P0				0x10
83 
84 /* RX lane word width */
85 #define SERDES_IREG_FLD_PCSRX_DATAWIDTH_REG_NUM				5
86 #define SERDES_IREG_FLD_PCSRX_DATAWIDTH_MASK				0x07
87 #define SERDES_IREG_FLD_PCSRX_DATAWIDTH_VAL_8				0x00
88 #define SERDES_IREG_FLD_PCSRX_DATAWIDTH_VAL_10				0x01
89 #define SERDES_IREG_FLD_PCSRX_DATAWIDTH_VAL_16				0x02
90 #define SERDES_IREG_FLD_PCSRX_DATAWIDTH_VAL_20				0x03
91 #define SERDES_IREG_FLD_PCSRX_DATAWIDTH_VAL_32				0x04
92 #define SERDES_IREG_FLD_PCSRX_DATAWIDTH_VAL_40				0x05
93 
94 /* TX lane word width */
95 #define SERDES_IREG_FLD_PCSTX_DATAWIDTH_REG_NUM				5
96 #define SERDES_IREG_FLD_PCSTX_DATAWIDTH_MASK				0x70
97 #define SERDES_IREG_FLD_PCSTX_DATAWIDTH_VAL_8				0x00
98 #define SERDES_IREG_FLD_PCSTX_DATAWIDTH_VAL_10				0x10
99 #define SERDES_IREG_FLD_PCSTX_DATAWIDTH_VAL_16				0x20
100 #define SERDES_IREG_FLD_PCSTX_DATAWIDTH_VAL_20				0x30
101 #define SERDES_IREG_FLD_PCSTX_DATAWIDTH_VAL_32				0x40
102 #define SERDES_IREG_FLD_PCSTX_DATAWIDTH_VAL_40				0x50
103 
104 /* RX lane rate select */
105 #define SERDES_IREG_FLD_PCSRX_DIVRATE_REG_NUM				6
106 #define SERDES_IREG_FLD_PCSRX_DIVRATE_MASK				0x07
107 #define SERDES_IREG_FLD_PCSRX_DIVRATE_VAL_1_8				0x00
108 #define SERDES_IREG_FLD_PCSRX_DIVRATE_VAL_1_4				0x01
109 #define SERDES_IREG_FLD_PCSRX_DIVRATE_VAL_1_2				0x02
110 #define SERDES_IREG_FLD_PCSRX_DIVRATE_VAL_1_1				0x03
111 
112 /* TX lane rate select */
113 #define SERDES_IREG_FLD_PCSTX_DIVRATE_REG_NUM				6
114 #define SERDES_IREG_FLD_PCSTX_DIVRATE_MASK				0x70
115 #define SERDES_IREG_FLD_PCSTX_DIVRATE_VAL_1_8				0x00
116 #define SERDES_IREG_FLD_PCSTX_DIVRATE_VAL_1_4				0x10
117 #define SERDES_IREG_FLD_PCSTX_DIVRATE_VAL_1_2				0x20
118 #define SERDES_IREG_FLD_PCSTX_DIVRATE_VAL_1_1				0x30
119 
120 /*
121  * PMA serial RX-to-TX loop-back enable (from AGC to IO Driver). Serial receive
122  * to transmit loopback: 0 - Disables loopback 1 - Transmits the untimed,
123  * partial equalized RX signal out the transmit IO pins
124  */
125 #define SERDES_IREG_FLD_LB_RX2TXUNTIMEDEN_REG_NUM			7
126 #define SERDES_IREG_FLD_LB_RX2TXUNTIMEDEN				0x10
127 
128 /*
129  * PMA TX-to-RX buffered serial loop-back enable (bypasses IO Driver). Serial
130  * transmit to receive buffered loopback: 0 - Disables loopback 1 - Loops back
131  * the TX serializer output into the CDR
132  */
133 #define SERDES_IREG_FLD_LB_TX2RXBUFTIMEDEN_REG_NUM			7
134 #define SERDES_IREG_FLD_LB_TX2RXBUFTIMEDEN				0x20
135 
136 /*
137  * PMA TX-to-RX I/O serial loop-back enable (loop back done directly from TX to
138  * RX pads). Serial IO loopback from the transmit lane IO pins to the receive
139  * lane IO pins: 0 - Disables loopback 1 - Loops back the driver IO signal to
140  * the RX IO pins
141  */
142 #define SERDES_IREG_FLD_LB_TX2RXIOTIMEDEN_REG_NUM			7
143 #define SERDES_IREG_FLD_LB_TX2RXIOTIMEDEN				0x40
144 
145 /*
146  * PMA Parallel RX-to-TX loop-back enable. Parallel loopback from the PMA
147  * receive lane 20-bit data ports, to the transmit lane 20-bit data ports 0 -
148  * Disables loopback 1 - Loops back the 20-bit receive data port to the
149  * transmitter
150  */
151 #define SERDES_IREG_FLD_LB_PARRX2TXTIMEDEN_REG_NUM			7
152 #define SERDES_IREG_FLD_LB_PARRX2TXTIMEDEN				0x80
153 
154 /*
155  * PMA CDR recovered-clock loopback enable; asserted when PARRX2TXTIMEDEN is 1.
156  * Transmit bit clock select: 0 - Selects synthesizer bit clock for transmit 1
157  * - Selects CDR clock for transmit
158  */
159 #define SERDES_IREG_FLD_LB_CDRCLK2TXEN_REG_NUM				7
160 #define SERDES_IREG_FLD_LB_CDRCLK2TXEN					0x01
161 
162 /* Receive lane BIST enable. Active High */
163 #define SERDES_IREG_FLD_PCSRXBIST_EN_REG_NUM				8
164 #define SERDES_IREG_FLD_PCSRXBIST_EN					0x01
165 
166 /* TX lane BIST enable. Active High */
167 #define SERDES_IREG_FLD_PCSTXBIST_EN_REG_NUM				8
168 #define SERDES_IREG_FLD_PCSTXBIST_EN					0x02
169 
170 /*
171  * RX BIST completion signal 0 - Indicates test is not completed 1 - Indicates
172  * the test has completed, and will remain high until a new test is initiated
173  */
174 #define SERDES_IREG_FLD_RXBIST_DONE_REG_NUM				8
175 #define SERDES_IREG_FLD_RXBIST_DONE					0x04
176 
177 /*
178  * RX BIST error count overflow indicator. Indicates an overflow in the number
179  * of byte errors identified during the course of the test. This word is stable
180  * to sample when *_DONE_* signal has asserted
181  */
182 #define SERDES_IREG_FLD_RXBIST_ERRCOUNT_OVERFLOW_REG_NUM		8
183 #define SERDES_IREG_FLD_RXBIST_ERRCOUNT_OVERFLOW			0x08
184 
185 /*
186  * RX BIST locked indicator 0 - Indicates BIST is not word locked and error
187  * comparisons have not begun yet 1 - Indicates BIST is word locked and error
188  * comparisons have begun
189  */
190 #define SERDES_IREG_FLD_RXBIST_RXLOCKED_REG_NUM				8
191 #define SERDES_IREG_FLD_RXBIST_RXLOCKED					0x10
192 
193 /*
194  * RX BIST error count word. Indicates the number of byte errors identified
195  * during the course of the test. This word is stable to sample when *_DONE_*
196  * signal has asserted
197  */
198 #define SERDES_IREG_FLD_RXBIST_ERRCOUNT_MSB_REG_NUM			9
199 #define SERDES_IREG_FLD_RXBIST_ERRCOUNT_LSB_REG_NUM			10
200 
201 /* Tx params */
202 #define SERDES_IREG_TX_DRV_1_REG_NUM					21
203 #define SERDES_IREG_TX_DRV_1_HLEV_MASK					0x7
204 #define SERDES_IREG_TX_DRV_1_HLEV_SHIFT					0
205 #define SERDES_IREG_TX_DRV_1_LEVN_MASK					0xf8
206 #define SERDES_IREG_TX_DRV_1_LEVN_SHIFT					3
207 
208 #define SERDES_IREG_TX_DRV_2_REG_NUM					22
209 #define SERDES_IREG_TX_DRV_2_LEVNM1_MASK				0xf
210 #define SERDES_IREG_TX_DRV_2_LEVNM1_SHIFT				0
211 #define SERDES_IREG_TX_DRV_2_LEVNM2_MASK				0x30
212 #define SERDES_IREG_TX_DRV_2_LEVNM2_SHIFT				4
213 
214 #define SERDES_IREG_TX_DRV_3_REG_NUM					23
215 #define SERDES_IREG_TX_DRV_3_LEVNP1_MASK				0x7
216 #define SERDES_IREG_TX_DRV_3_LEVNP1_SHIFT				0
217 #define SERDES_IREG_TX_DRV_3_SLEW_MASK					0x18
218 #define SERDES_IREG_TX_DRV_3_SLEW_SHIFT					3
219 
220 /* Rx params */
221 #define SERDES_IREG_RX_CALEQ_1_REG_NUM					24
222 #define SERDES_IREG_RX_CALEQ_1_DCGAIN_MASK				0x7
223 #define SERDES_IREG_RX_CALEQ_1_DCGAIN_SHIFT				0
224 /* DFE post-shaping tap 3dB frequency */
225 #define SERDES_IREG_RX_CALEQ_1_DFEPSTAP3DB_MASK				0x38
226 #define SERDES_IREG_RX_CALEQ_1_DFEPSTAP3DB_SHIFT			3
227 
228 #define SERDES_IREG_RX_CALEQ_2_REG_NUM					25
229 /* DFE post-shaping tap gain */
230 #define SERDES_IREG_RX_CALEQ_2_DFEPSTAPGAIN_MASK			0x7
231 #define SERDES_IREG_RX_CALEQ_2_DFEPSTAPGAIN_SHIFT			0
232 /* DFE first tap gain control */
233 #define SERDES_IREG_RX_CALEQ_2_DFETAP1GAIN_MASK				0x78
234 #define SERDES_IREG_RX_CALEQ_2_DFETAP1GAIN_SHIFT			3
235 
236 #define SERDES_IREG_RX_CALEQ_3_REG_NUM					26
237 #define SERDES_IREG_RX_CALEQ_3_DFETAP2GAIN_MASK				0xf
238 #define SERDES_IREG_RX_CALEQ_3_DFETAP2GAIN_SHIFT			0
239 #define SERDES_IREG_RX_CALEQ_3_DFETAP3GAIN_MASK				0xf0
240 #define SERDES_IREG_RX_CALEQ_3_DFETAP3GAIN_SHIFT			4
241 
242 #define SERDES_IREG_RX_CALEQ_4_REG_NUM					27
243 #define SERDES_IREG_RX_CALEQ_4_DFETAP4GAIN_MASK				0xf
244 #define SERDES_IREG_RX_CALEQ_4_DFETAP4GAIN_SHIFT			0
245 #define SERDES_IREG_RX_CALEQ_4_LOFREQAGCGAIN_MASK			0x70
246 #define SERDES_IREG_RX_CALEQ_4_LOFREQAGCGAIN_SHIFT			4
247 
248 #define SERDES_IREG_RX_CALEQ_5_REG_NUM					28
249 #define SERDES_IREG_RX_CALEQ_5_PRECAL_CODE_SEL_MASK			0x7
250 #define SERDES_IREG_RX_CALEQ_5_PRECAL_CODE_SEL_SHIFT			0
251 #define SERDES_IREG_RX_CALEQ_5_HIFREQAGCCAP_MASK			0xf8
252 #define SERDES_IREG_RX_CALEQ_5_HIFREQAGCCAP_SHIFT			3
253 
254 /* RX lane best eye point measurement result */
255 #define SERDES_IREG_RXEQ_BEST_EYE_MSB_VAL_REG_NUM			29
256 #define SERDES_IREG_RXEQ_BEST_EYE_LSB_VAL_REG_NUM			30
257 #define SERDES_IREG_RXEQ_BEST_EYE_LSB_VAL_MASK				0x3F
258 
259 /*
260  * Adaptive RX Equalization enable
261  * 0 - Disables adaptive RX equalization.
262  * 1 - Enables adaptive RX equalization.
263  */
264 #define SERDES_IREG_FLD_PCSRXEQ_START_REG_NUM				31
265 #define SERDES_IREG_FLD_PCSRXEQ_START					(1 << 0)
266 
267 /*
268  * Enables an eye diagram measurement
269  * within the PHY.
270  * 0 - Disables eye diagram measurement
271  * 1 - Enables eye diagram measurement
272  */
273 #define SERDES_IREG_FLD_RXCALEYEDIAGFSMIN_START_REG_NUM			31
274 #define SERDES_IREG_FLD_RXCALEYEDIAGFSMIN_START				(1 << 1)
275 
276 
277 /*
278  * RX lane single roam eye point measurement start signal.
279  * If asserted, single measurement at fix XADJUST and YADJUST is started.
280  */
281 #define SERDES_IREG_FLD_RXCALROAMEYEMEASIN_CYCLEEN_REG_NUM		31
282 #define SERDES_IREG_FLD_RXCALROAMEYEMEASIN_CYCLEEN_START		(1 << 2)
283 
284 
285 /*
286  * PHY Eye diagram measurement status
287  * signal
288  * 0 - Indicates eye diagram results are not
289  * valid for sampling
290  * 1 - Indicates eye diagram is complete and
291  * results are valid for sampling
292  */
293 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_DONE_REG_NUM			32
294 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_DONE				(1 << 0)
295 
296 /*
297  * Eye diagram error signal. Indicates if the
298  * measurement was invalid because the eye
299  * diagram was interrupted by the link entering
300  * electrical idle.
301  * 0 - Indicates eye diagram is valid
302  * 1- Indicates an error occurred, and the eye
303  * diagram measurement should be re-run
304  */
305 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_ERR_REG_NUM			32
306 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_ERR				(1 << 1)
307 
308 /*
309  * PHY Adaptive Equalization status
310  * 0 - Indicates Adaptive Equalization results are not valid for sampling
311  * 1 - Indicates Adaptive Equalization is complete and results are valid for
312  *     sampling
313  */
314 #define SERDES_IREG_FLD_RXCALROAMEYEMEASDONE_REG_NUM			32
315 #define SERDES_IREG_FLD_RXCALROAMEYEMEASDONE				(1 << 2)
316 
317 /*
318  *
319  * PHY Adaptive Equalization Status Signal
320  * 0 – Indicates adaptive equalization results
321  * are not valid for sampling
322  * 1 – Indicates adaptive equalization is
323  * complete and results are valid for sampling.
324  */
325 #define SERDES_IREG_FLD_RXEQ_DONE_REG_NUM				32
326 #define SERDES_IREG_FLD_RXEQ_DONE					(1 << 3)
327 
328 
329 /*
330  * 7-bit eye diagram time adjust control
331  * - 6-bits per UI
332  * - spans 2 UI
333  */
334 #define SERDES_IREG_FLD_RXCALROAMXADJUST_REG_NUM			33
335 
336 /* 6-bit eye diagram voltage adjust control - spans +/-300mVdiff */
337 #define SERDES_IREG_FLD_RXCALROAMYADJUST_REG_NUM			34
338 
339 /*
340  * Eye diagram status signal. Safe for
341  * sampling when *DONE* signal has
342  * asserted
343  * 14'h0000 - Completely Closed Eye
344  * 14'hFFFF - Completely Open Eye
345  */
346 #define	SERDES_IREG_FLD_RXCALEYEDIAGFSM_EYESUM_MSB_REG_NUM		35
347 #define	SERDES_IREG_FLD_RXCALEYEDIAGFSM_EYESUM_MSB_MAKE			0xFF
348 #define	SERDES_IREG_FLD_RXCALEYEDIAGFSM_EYESUM_MSB_SHIFT		0
349 
350 #define	SERDES_IREG_FLD_RXCALEYEDIAGFSM_EYESUM_LSB_REG_NUM		36
351 #define	SERDES_IREG_FLD_RXCALEYEDIAGFSM_EYESUM_LSB_MAKE			0x3F
352 #define	SERDES_IREG_FLD_RXCALEYEDIAGFSM_EYESUM_LSB_SHIFT		0
353 
354 /*
355  * RX lane single roam eye point measurement result.
356  * If 0, eye is open at current XADJUST and YADJUST settings.
357  */
358 #define SERDES_IREG_FLD_RXCALROAMEYEMEAS_ACC_MSB_REG_NUM		37
359 #define SERDES_IREG_FLD_RXCALROAMEYEMEAS_ACC_LSB_REG_NUM		38
360 
361 /*
362  * Override enable for CDR lock to reference clock
363  * 0 - CDR is always locked to reference
364  * 1 - CDR operation mode (Lock2Reference or Lock2data are controlled internally
365  *     depending on the incoming signal and ppm status)
366  */
367 #define SERDES_IREG_FLD_RXLOCK2REF_OVREN_REG_NUM			39
368 #define SERDES_IREG_FLD_RXLOCK2REF_OVREN				(1 << 1)
369 
370 /*
371  * Selects Eye to capture based on edge
372  * 0 - Capture 1st Eye in Eye Diagram
373  * 1 - Capture 2nd Eye in Eye Diagram measurement
374  */
375 #define SERDES_IREG_FLD_RXROAM_XORBITSEL_REG_NUM			39
376 #define SERDES_IREG_FLD_RXROAM_XORBITSEL				(1 << 2)
377 #define SERDES_IREG_FLD_RXROAM_XORBITSEL_1ST				0
378 #define SERDES_IREG_FLD_RXROAM_XORBITSEL_2ND				(1 << 2)
379 
380 /*
381  * RX Signal detect. 0 indicates no signal, 1 indicates signal detected.
382  */
383 #define SERDES_IREG_FLD_RXRANDET_REG_NUM				41
384 #define SERDES_IREG_FLD_RXRANDET_STAT					0x20
385 
386 /*
387  * RX data polarity inversion control:
388  * 1'b0: no inversion
389  * 1'b1: invert polarity
390  */
391 #define SERDES_IREG_FLD_POLARITY_RX_REG_NUM				46
392 #define SERDES_IREG_FLD_POLARITY_RX_INV					(1 << 0)
393 
394 /*
395  * TX data polarity inversion control:
396  * 1'b0: no inversion
397  * 1'b1: invert polarity
398  */
399 #define SERDES_IREG_FLD_POLARITY_TX_REG_NUM				46
400 #define SERDES_IREG_FLD_POLARITY_TX_INV					(1 << 1)
401 
402 /* LANEPCSPSTATE* override enable (Active low) */
403 #define SERDES_IREG_FLD_LANEPCSPSTATE_LOCWREN_REG_NUM			85
404 #define SERDES_IREG_FLD_LANEPCSPSTATE_LOCWREN				(1 << 0)
405 
406 /* LB* override enable (Active low) */
407 #define SERDES_IREG_FLD_LB_LOCWREN_REG_NUM				85
408 #define SERDES_IREG_FLD_LB_LOCWREN					(1 << 1)
409 
410 /* PCSRX* override enable (Active low) */
411 #define SERDES_IREG_FLD_PCSRX_LOCWREN_REG_NUM				85
412 #define SERDES_IREG_FLD_PCSRX_LOCWREN					(1 << 4)
413 
414 /* PCSRXBIST* override enable (Active low) */
415 #define SERDES_IREG_FLD_PCSRXBIST_LOCWREN_REG_NUM			85
416 #define SERDES_IREG_FLD_PCSRXBIST_LOCWREN				(1 << 5)
417 
418 /* PCSRXEQ* override enable (Active low) */
419 #define SERDES_IREG_FLD_PCSRXEQ_LOCWREN_REG_NUM				85
420 #define SERDES_IREG_FLD_PCSRXEQ_LOCWREN					(1 << 6)
421 
422 /* PCSTX* override enable (Active low) */
423 #define SERDES_IREG_FLD_PCSTX_LOCWREN_REG_NUM				85
424 #define SERDES_IREG_FLD_PCSTX_LOCWREN					(1 << 7)
425 
426 /*
427  * group registers:
428  * SERDES_IREG_FLD_RXCALEYEDIAGFSMIN_LOCWREN,
429  * SERDES_IREG_FLD_RXCALROAMEYEMEASIN_LOCWREN
430  * SERDES_IREG_FLD_RXCALROAMXADJUST_LOCWREN
431  */
432 #define SERDES_IREG_FLD_RXCAL_LOCWREN_REG_NUM				86
433 
434 /* PCSTXBIST* override enable (Active low) */
435 #define SERDES_IREG_FLD_PCSTXBIST_LOCWREN_REG_NUM			86
436 #define SERDES_IREG_FLD_PCSTXBIST_LOCWREN				(1 << 0)
437 
438 /* Override RX_CALCEQ through the internal registers (Active low) */
439 #define SERDES_IREG_FLD_RX_DRV_OVERRIDE_EN_REG_NUM			86
440 #define SERDES_IREG_FLD_RX_DRV_OVERRIDE_EN				(1 << 3)
441 
442 #define SERDES_IREG_FLD_RXCALEYEDIAGFSMIN_LOCWREN_REG_NUM		86
443 #define SERDES_IREG_FLD_RXCALEYEDIAGFSMIN_LOCWREN			(1 << 4)
444 
445 
446 /* RXCALROAMEYEMEASIN* override enable - Active Low */
447 #define SERDES_IREG_FLD_RXCALROAMEYEMEASIN_LOCWREN_REG_NUM		86
448 #define SERDES_IREG_FLD_RXCALROAMEYEMEASIN_LOCWREN			(1 << 6)
449 
450 /* RXCALROAMXADJUST* override enable - Active Low */
451 #define SERDES_IREG_FLD_RXCALROAMXADJUST_LOCWREN_REG_NUM		86
452 #define SERDES_IREG_FLD_RXCALROAMXADJUST_LOCWREN			(1 << 7)
453 
454 /* RXCALROAMYADJUST* override enable - Active Low */
455 #define SERDES_IREG_FLD_RXCALROAMYADJUST_LOCWREN_REG_NUM		87
456 #define SERDES_IREG_FLD_RXCALROAMYADJUST_LOCWREN			(1 << 0)
457 
458 /* RXCDRCALFOSC* override enable. Active Low */
459 #define SERDES_IREG_FLD_RXCDRCALFOSC_LOCWREN_REG_NUM			87
460 #define SERDES_IREG_FLD_RXCDRCALFOSC_LOCWREN				(1 << 1)
461 
462 /* Over-write enable for RXEYEDIAGFSM_INITXVAL */
463 #define SERDES_IREG_FLD_RXEYEDIAGFSM_LOCWREN_REG_NUM			87
464 #define SERDES_IREG_FLD_RXEYEDIAGFSM_LOCWREN				(1 << 2)
465 
466 /* Over-write enable for CMNCLKGENMUXSEL_TXINTERNAL */
467 #define SERDES_IREG_FLD_RXTERMHIZ_LOCWREN_REG_NUM			87
468 #define SERDES_IREG_FLD_RXTERMHIZ_LOCWREN				(1 << 3)
469 
470 /* TXCALTCLKDUTY* override enable. Active Low */
471 #define SERDES_IREG_FLD_TXCALTCLKDUTY_LOCWREN_REG_NUM			87
472 #define SERDES_IREG_FLD_TXCALTCLKDUTY_LOCWREN				(1 << 4)
473 
474 /* Override TX_DRV through the internal registers (Active low) */
475 #define SERDES_IREG_FLD_TX_DRV_OVERRIDE_EN_REG_NUM			87
476 #define SERDES_IREG_FLD_TX_DRV_OVERRIDE_EN				(1 << 5)
477 
478 /*******************************************************************************
479  * Common lane register fields - PMA
480  ******************************************************************************/
481 /*
482  * Common lane hard reset control
483  * 0 - Hard reset is taken from the interface pins
484  * 1 - Hard reset is taken from registers
485  */
486 #define SERDES_IREG_FLD_CMNCTLPOR_HARDRSTBYPASSEN_SYNTH_REG_NUM		2
487 #define SERDES_IREG_FLD_CMNCTLPOR_HARDRSTBYPASSEN_SYNTH_MASK		0x01
488 #define SERDES_IREG_FLD_CMNCTLPOR_HARDRSTBYPASSEN_SYNTH_VAL_IFACE	0x00
489 #define SERDES_IREG_FLD_CMNCTLPOR_HARDRSTBYPASSEN_SYNTH_VAL_REGS	0x01
490 
491 /*
492  * Common lane hard reset
493  * 0 - Hard reset is asserted
494  * 1 - Hard reset is de-asserted
495  */
496 #define SERDES_IREG_FLD_CMNCTLPOR_HARDRSTBYPASS_SYNTH_REG_NUM		2
497 #define SERDES_IREG_FLD_CMNCTLPOR_HARDRSTBYPASS_SYNTH_MASK		0x02
498 #define SERDES_IREG_FLD_CMNCTLPOR_HARDRSTBYPASS_SYNTH_VAL_ASSERT	0x00
499 #define SERDES_IREG_FLD_CMNCTLPOR_HARDRSTBYPASS_SYNTH_VAL_DEASSERT	0x02
500 
501 /* Synth power state control */
502 #define SERDES_IREG_FLD_CMNPCSPSTATE_SYNTH_REG_NUM			3
503 #define SERDES_IREG_FLD_CMNPCSPSTATE_SYNTH_MASK				0x1f
504 #define SERDES_IREG_FLD_CMNPCSPSTATE_SYNTH_VAL_PD			0x01
505 #define SERDES_IREG_FLD_CMNPCSPSTATE_SYNTH_VAL_P2			0x02
506 #define SERDES_IREG_FLD_CMNPCSPSTATE_SYNTH_VAL_P1			0x04
507 #define SERDES_IREG_FLD_CMNPCSPSTATE_SYNTH_VAL_P0S			0x08
508 #define SERDES_IREG_FLD_CMNPCSPSTATE_SYNTH_VAL_P0			0x10
509 
510 /* Transmit datapath FIFO enable (Active High) */
511 #define SERDES_IREG_FLD_CMNPCS_TXENABLE_REG_NUM				8
512 #define SERDES_IREG_FLD_CMNPCS_TXENABLE					(1 << 2)
513 
514 /*
515  * RX lost of signal detector enable
516  * - 0 - disable
517  * - 1 - enable
518  */
519 #define SERDES_IREG_FLD_RXLOSDET_ENABLE_REG_NUM				13
520 #define SERDES_IREG_FLD_RXLOSDET_ENABLE					AL_BIT(4)
521 
522 /* Signal Detect Threshold Level */
523 #define SERDES_IREG_FLD_RXELECIDLE_SIGDETTHRESH_REG_NUM			15
524 #define SERDES_IREG_FLD_RXELECIDLE_SIGDETTHRESH_MASK			AL_FIELD_MASK(2, 0)
525 
526 /* LOS Detect Threshold Level */
527 #define SERDES_IREG_FLD_RXLOSDET_THRESH_REG_NUM				15
528 #define SERDES_IREG_FLD_RXLOSDET_THRESH_MASK				AL_FIELD_MASK(4, 3)
529 #define SERDES_IREG_FLD_RXLOSDET_THRESH_SHIFT				3
530 
531 #define SERDES_IREG_FLD_RXEQ_COARSE_ITER_NUM_REG_NUM			30
532 #define SERDES_IREG_FLD_RXEQ_COARSE_ITER_NUM_MASK			0x7f
533 #define SERDES_IREG_FLD_RXEQ_COARSE_ITER_NUM_SHIFT			0
534 
535 #define SERDES_IREG_FLD_RXEQ_FINE_ITER_NUM_REG_NUM			31
536 #define SERDES_IREG_FLD_RXEQ_FINE_ITER_NUM_MASK				0x7f
537 #define SERDES_IREG_FLD_RXEQ_FINE_ITER_NUM_SHIFT			0
538 
539 #define SERDES_IREG_FLD_RXEQ_COARSE_RUN1_MASK_REG_NUM			32
540 #define SERDES_IREG_FLD_RXEQ_COARSE_RUN1_MASK_MASK			0xff
541 #define SERDES_IREG_FLD_RXEQ_COARSE_RUN1_MASK_SHIFT			0
542 
543 #define SERDES_IREG_FLD_RXEQ_COARSE_RUN2_MASK_REG_NUM			33
544 #define SERDES_IREG_FLD_RXEQ_COARSE_RUN2_MASK_MASK			0x1
545 #define SERDES_IREG_FLD_RXEQ_COARSE_RUN2_MASK_SHIFT			0
546 
547 #define SERDES_IREG_FLD_RXEQ_COARSE_STEP_REG_NUM			33
548 #define SERDES_IREG_FLD_RXEQ_COARSE_STEP_MASK				0x3e
549 #define SERDES_IREG_FLD_RXEQ_COARSE_STEP_SHIFT				1
550 
551 #define SERDES_IREG_FLD_RXEQ_FINE_RUN1_MASK_REG_NUM			34
552 #define SERDES_IREG_FLD_RXEQ_FINE_RUN1_MASK_MASK			0xff
553 #define SERDES_IREG_FLD_RXEQ_FINE_RUN1_MASK_SHIFT			0
554 
555 #define SERDES_IREG_FLD_RXEQ_FINE_RUN2_MASK_REG_NUM			35
556 #define SERDES_IREG_FLD_RXEQ_FINE_RUN2_MASK_MASK			0x1
557 #define SERDES_IREG_FLD_RXEQ_FINE_RUN2_MASK_SHIFT			0
558 
559 #define SERDES_IREG_FLD_RXEQ_FINE_STEP_REG_NUM				35
560 #define SERDES_IREG_FLD_RXEQ_FINE_STEP_MASK				0x3e
561 #define SERDES_IREG_FLD_RXEQ_FINE_STEP_SHIFT				1
562 
563 #define SERDES_IREG_FLD_RXEQ_LOOKUP_CODE_EN_REG_NUM			36
564 #define SERDES_IREG_FLD_RXEQ_LOOKUP_CODE_EN_MASK			0xff
565 #define SERDES_IREG_FLD_RXEQ_LOOKUP_CODE_EN_SHIFT			0
566 
567 #define SERDES_IREG_FLD_RXEQ_LOOKUP_LASTCODE_REG_NUM			37
568 #define SERDES_IREG_FLD_RXEQ_LOOKUP_LASTCODE_MASK			0x7
569 #define SERDES_IREG_FLD_RXEQ_LOOKUP_LASTCODE_SHIFT			0
570 
571 #define SERDES_IREG_FLD_RXEQ_DCGAIN_LUP0_REG_NUM			43
572 #define SERDES_IREG_FLD_RXEQ_DCGAIN_LUP0_MASK				0x7
573 #define SERDES_IREG_FLD_RXEQ_DCGAIN_LUP0_SHIFT				0
574 
575 #define SERDES_IREG_FLD_TX_BIST_PAT_REG_NUM(byte_num)			(56 + (byte_num))
576 #define SERDES_IREG_FLD_TX_BIST_PAT_NUM_BYTES				10
577 
578 /*
579  * Selects the transmit BIST mode:
580  * 0 - Uses the 80-bit internal memory pattern (w/ OOB)
581  * 1 - Uses a 27 PRBS pattern
582  * 2 - Uses a 223 PRBS pattern
583  * 3 - Uses a 231 PRBS pattern
584  * 4 - Uses a 1010 clock pattern
585  * 5 and above - Reserved
586  */
587 #define SERDES_IREG_FLD_CMNPCSBIST_MODESEL_REG_NUM			80
588 #define SERDES_IREG_FLD_CMNPCSBIST_MODESEL_MASK				0x07
589 #define SERDES_IREG_FLD_CMNPCSBIST_MODESEL_VAL_USER			0x00
590 #define SERDES_IREG_FLD_CMNPCSBIST_MODESEL_VAL_PRBS7			0x01
591 #define SERDES_IREG_FLD_CMNPCSBIST_MODESEL_VAL_PRBS23			0x02
592 #define SERDES_IREG_FLD_CMNPCSBIST_MODESEL_VAL_PRBS31			0x03
593 #define SERDES_IREG_FLD_CMNPCSBIST_MODESEL_VAL_CLK1010			0x04
594 
595 /* Single-Bit error injection enable (on posedge) */
596 #define SERDES_IREG_FLD_TXBIST_BITERROR_EN_REG_NUM			80
597 #define SERDES_IREG_FLD_TXBIST_BITERROR_EN				0x20
598 
599 /* CMNPCIEGEN3* override enable (Active Low) */
600 #define SERDES_IREG_FLD_CMNPCIEGEN3_LOCWREN_REG_NUM			95
601 #define SERDES_IREG_FLD_CMNPCIEGEN3_LOCWREN				(1 << 2)
602 
603 /* CMNPCS* override enable (Active Low) */
604 #define SERDES_IREG_FLD_CMNPCS_LOCWREN_REG_NUM				95
605 #define SERDES_IREG_FLD_CMNPCS_LOCWREN					(1 << 3)
606 
607 /* CMNPCSBIST* override enable (Active Low) */
608 #define SERDES_IREG_FLD_CMNPCSBIST_LOCWREN_REG_NUM			95
609 #define SERDES_IREG_FLD_CMNPCSBIST_LOCWREN				(1 << 4)
610 
611 /* CMNPCSPSTATE* override enable (Active Low) */
612 #define SERDES_IREG_FLD_CMNPCSPSTATE_LOCWREN_REG_NUM			95
613 #define SERDES_IREG_FLD_CMNPCSPSTATE_LOCWREN				(1 << 5)
614 
615 /*  PCS_EN* override enable (Active Low) */
616 #define SERDES_IREG_FLD_PCS_LOCWREN_REG_NUM				96
617 #define SERDES_IREG_FLD_PCS_LOCWREN					(1 << 3)
618 
619 /* Eye diagram sample count */
620 #define SERDES_IREG_FLD_EYE_DIAG_SAMPLE_CNT_MSB_REG_NUM			150
621 #define SERDES_IREG_FLD_EYE_DIAG_SAMPLE_CNT_MSB_MASK			0xff
622 #define SERDES_IREG_FLD_EYE_DIAG_SAMPLE_CNT_MSB_SHIFT			0
623 
624 #define SERDES_IREG_FLD_EYE_DIAG_SAMPLE_CNT_LSB_REG_NUM			151
625 #define SERDES_IREG_FLD_EYE_DIAG_SAMPLE_CNT_LSB_MASK			0xff
626 #define SERDES_IREG_FLD_EYE_DIAG_SAMPLE_CNT_LSB_SHIFT			0
627 
628 /* override control */
629 #define SERDES_IREG_FLD_RXLOCK2REF_LOCWREN_REG_NUM			230
630 #define SERDES_IREG_FLD_RXLOCK2REF_LOCWREN				1 << 0
631 
632 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_BERTHRESHOLD1_REG_NUM		623
633 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_BERTHRESHOLD1_MASK		0xff
634 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_BERTHRESHOLD1_SHIFT		0
635 
636 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_BERTHRESHOLD2_REG_NUM		624
637 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_BERTHRESHOLD2_MASK		0xff
638 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_BERTHRESHOLD2_SHIFT		0
639 
640 /* X and Y coefficient return value */
641 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_X_Y_VALWEIGHT_REG_NUM		626
642 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_XVALWEIGHT_MASK			0x0F
643 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_XVALWEIGHT_SHIFT		0
644 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_YVALWEIGHT_MASK			0xF0
645 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_YVALWEIGHT_SHIFT		4
646 
647 /* X coarse scan step */
648 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_XVALCOARSE_REG_NUM		627
649 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_XVALCOARSE_MASK			0x7F
650 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_XVALCOARSE_SHIFT		0
651 
652 /* X fine scan step */
653 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_XVALFINE_REG_NUM		628
654 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_XVALFINE_MASK			0x7F
655 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_XVALFINE_SHIFT			0
656 
657 /* Y coarse scan step */
658 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_YVALCOARSE_REG_NUM		629
659 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_YVALCOARSE_MASK			0x0F
660 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_YVALCOARSE_SHIFT		0
661 
662 /* Y fine scan step */
663 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_YVALFINE_REG_NUM		630
664 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_YVALFINE_MASK			0x0F
665 #define SERDES_IREG_FLD_RXCALEYEDIAGFSM_YVALFINE_SHIFT			0
666 
667 #define SERDES_IREG_FLD_PPMDRIFTCOUNT1_REG_NUM				157
668 
669 #define SERDES_IREG_FLD_PPMDRIFTCOUNT2_REG_NUM				158
670 
671 #define SERDES_IREG_FLD_PPMDRIFTMAX1_REG_NUM				159
672 
673 #define SERDES_IREG_FLD_PPMDRIFTMAX2_REG_NUM				160
674 
675 #define SERDES_IREG_FLD_SYNTHPPMDRIFTMAX1_REG_NUM			163
676 
677 #define SERDES_IREG_FLD_SYNTHPPMDRIFTMAX2_REG_NUM			164
678 
679 /*******************************************************************************
680  * Common lane register fields - PCS
681  ******************************************************************************/
682 #define SERDES_IREG_FLD_PCS_VPCSIF_OVR_RATE_REG_NUM			3
683 #define SERDES_IREG_FLD_PCS_VPCSIF_OVR_RATE_MASK			AL_FIELD_MASK(5, 4)
684 #define SERDES_IREG_FLD_PCS_VPCSIF_OVR_RATE_SHIFT			4
685 
686 #define SERDES_IREG_FLD_PCS_VPCSIF_OVR_RATE_ENA_REG_NUM			6
687 #define SERDES_IREG_FLD_PCS_VPCSIF_OVR_RATE_ENA				AL_BIT(2)
688 
689 #define SERDES_IREG_FLD_PCS_EBUF_FULL_D2R1_REG_NUM			18
690 #define SERDES_IREG_FLD_PCS_EBUF_FULL_D2R1_REG_MASK			0x1F
691 #define SERDES_IREG_FLD_PCS_EBUF_FULL_D2R1_REG_SHIFT			0
692 
693 #define SERDES_IREG_FLD_PCS_EBUF_FULL_PCIE_G3_REG_NUM			19
694 #define SERDES_IREG_FLD_PCS_EBUF_FULL_PCIE_G3_REG_MASK			0x7C
695 #define SERDES_IREG_FLD_PCS_EBUF_FULL_PCIE_G3_REG_SHIFT			2
696 
697 #define SERDES_IREG_FLD_PCS_EBUF_RD_THRESHOLD_D2R1_REG_NUM		20
698 #define SERDES_IREG_FLD_PCS_EBUF_RD_THRESHOLD_D2R1_REG_MASK		0x1F
699 #define SERDES_IREG_FLD_PCS_EBUF_RD_THRESHOLD_D2R1_REG_SHIFT		0
700 
701 #define SERDES_IREG_FLD_PCS_EBUF_RD_THRESHOLD_PCIE_G3_REG_NUM		21
702 #define SERDES_IREG_FLD_PCS_EBUF_RD_THRESHOLD_PCIE_G3_REG_MASK		0x7C
703 #define SERDES_IREG_FLD_PCS_EBUF_RD_THRESHOLD_PCIE_G3_REG_SHIFT		2
704 
705 #define SERDES_IREG_FLD_PCS_RXEQ_COARSE_ITER_NUM_REG_NUM		22
706 #define SERDES_IREG_FLD_PCS_RXEQ_COARSE_ITER_NUM_MASK			0x7f
707 #define SERDES_IREG_FLD_PCS_RXEQ_COARSE_ITER_NUM_SHIFT			0
708 
709 #define SERDES_IREG_FLD_PCS_RXEQ_FINE_ITER_NUM_REG_NUM			34
710 #define SERDES_IREG_FLD_PCS_RXEQ_FINE_ITER_NUM_MASK			0x7f
711 #define SERDES_IREG_FLD_PCS_RXEQ_FINE_ITER_NUM_SHIFT			0
712 
713 #define SERDES_IREG_FLD_PCS_RXEQ_COARSE_RUN1_MASK_REG_NUM		23
714 #define SERDES_IREG_FLD_PCS_RXEQ_COARSE_RUN1_MASK_MASK			0xff
715 #define SERDES_IREG_FLD_PCS_RXEQ_COARSE_RUN1_MASK_SHIFT			0
716 
717 #define SERDES_IREG_FLD_PCS_RXEQ_COARSE_RUN2_MASK_REG_NUM		22
718 #define SERDES_IREG_FLD_PCS_RXEQ_COARSE_RUN2_MASK_MASK			0x80
719 #define SERDES_IREG_FLD_PCS_RXEQ_COARSE_RUN2_MASK_SHIFT			7
720 
721 #define SERDES_IREG_FLD_PCS_RXEQ_COARSE_STEP_REG_NUM			24
722 #define SERDES_IREG_FLD_PCS_RXEQ_COARSE_STEP_MASK			0x3e
723 #define SERDES_IREG_FLD_PCS_RXEQ_COARSE_STEP_SHIFT			1
724 
725 #define SERDES_IREG_FLD_PCS_RXEQ_FINE_RUN1_MASK_REG_NUM			35
726 #define SERDES_IREG_FLD_PCS_RXEQ_FINE_RUN1_MASK_MASK			0xff
727 #define SERDES_IREG_FLD_PCS_RXEQ_FINE_RUN1_MASK_SHIFT			0
728 
729 #define SERDES_IREG_FLD_PCS_RXEQ_FINE_RUN2_MASK_REG_NUM			34
730 #define SERDES_IREG_FLD_PCS_RXEQ_FINE_RUN2_MASK_MASK			0x80
731 #define SERDES_IREG_FLD_PCS_RXEQ_FINE_RUN2_MASK_SHIFT			7
732 
733 #define SERDES_IREG_FLD_PCS_RXEQ_FINE_STEP_REG_NUM			36
734 #define SERDES_IREG_FLD_PCS_RXEQ_FINE_STEP_MASK				0x1f
735 #define SERDES_IREG_FLD_PCS_RXEQ_FINE_STEP_SHIFT			0
736 
737 #define SERDES_IREG_FLD_PCS_RXEQ_LOOKUP_CODE_EN_REG_NUM			37
738 #define SERDES_IREG_FLD_PCS_RXEQ_LOOKUP_CODE_EN_MASK			0xff
739 #define SERDES_IREG_FLD_PCS_RXEQ_LOOKUP_CODE_EN_SHIFT			0
740 
741 #define SERDES_IREG_FLD_PCS_RXEQ_LOOKUP_LASTCODE_REG_NUM		36
742 #define SERDES_IREG_FLD_PCS_RXEQ_LOOKUP_LASTCODE_MASK			0xe0
743 #define SERDES_IREG_FLD_PCS_RXEQ_LOOKUP_LASTCODE_SHIFT			5
744 
745 #ifdef __cplusplus
746 }
747 #endif
748 
749 #endif /* __AL_serdes_REG_H */
750 
751