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Modificaions from Stefan Rossegger :
[u/mrichter/AliRoot.git] / TRD / AliTRDtrapConfig.cxx
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36dc3337 1/**************************************************************************
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
3 * *
4 * Author: The ALICE Off-line Project. *
5 * Contributors are mentioned in the code where appropriate. *
6 * *
7 * Permission to use, copy, modify and distribute this software and its *
8 * documentation strictly for non-commercial purposes is hereby granted *
9 * without fee, provided that the above copyright notice appears in all *
10 * copies and that both the copyright notice and this permission notice *
11 * appear in the supporting documentation. The authors make no claims *
12 * about the suitability of this software for any purpose. It is *
13 * provided "as is" without express or implied warranty. *
14 **************************************************************************/
15
16////////////////////////////////////////////////////////////////////////////
17// //
18// TRAP config //
19// //
20// Author: J. Klein (Jochen.Klein@cern.ch) //
21// //
22////////////////////////////////////////////////////////////////////////////
23
ce4786b9 24#include "AliLog.h"
25
26#include "AliTRDgeometry.h"
27#include "AliTRDfeeParam.h"
28#include "AliTRDtrapConfig.h"
5e86ff99 29#include "AliTRDtrapConfigHandler.h"
ce4786b9 30
31#include <fstream>
32#include <iostream>
33#include <iomanip>
34
35ClassImp(AliTRDtrapConfig)
36
37AliTRDtrapConfig* AliTRDtrapConfig::fgInstance = 0x0;
38const Int_t AliTRDtrapConfig::fgkMaxMcm = AliTRDfeeParam::GetNmcmRob() + 2;
39const Int_t AliTRDtrapConfig::fgkDmemStartAddress = 0xc000;
40
41AliTRDtrapConfig::AliTRDtrapConfig() :
8ea391e3 42 TObject(), fScaleQ0(0), fScaleQ1(0)
ce4786b9 43{
44 // default constructor, initializing array of TRAP registers
45
46 // Name Address Nbits Reset Value
47 fRegs[kSML0] = SimpleReg_t("SML0", 0x0A00, 15, 0x4050 ); // Global state machine
48 fRegs[kSML1] = SimpleReg_t("SML1", 0x0A01, 15, 0x4200 );
49 fRegs[kSML2] = SimpleReg_t("SML2", 0x0A02, 15, 0x4384 );
50 fRegs[kSMMODE] = SimpleReg_t("SMMODE", 0x0A03, 16, 0xF0E2 );
51 fRegs[kNITM0] = SimpleReg_t("NITM0", 0x0A08, 14, 0x3FFF );
52 fRegs[kNITM1] = SimpleReg_t("NITM1", 0x0A09, 14, 0x3FFF );
53 fRegs[kNITM2] = SimpleReg_t("NITM2", 0x0A0A, 14, 0x3FFF );
54 fRegs[kNIP4D] = SimpleReg_t("NIP4D", 0x0A0B, 7, 0x7F );
55 fRegs[kCPU0CLK] = SimpleReg_t("CPU0CLK", 0x0A20, 5, 0x07 );
56 fRegs[kCPU1CLK] = SimpleReg_t("CPU1CLK", 0x0A22, 5, 0x07 );
57 fRegs[kCPU2CLK] = SimpleReg_t("CPU2CLK", 0x0A24, 5, 0x07 );
58 fRegs[kCPU3CLK] = SimpleReg_t("CPU3CLK", 0x0A26, 5, 0x07 );
59 fRegs[kNICLK] = SimpleReg_t("NICLK", 0x0A28, 5, 0x07 );
60 fRegs[kFILCLK] = SimpleReg_t("FILCLK", 0x0A2A, 5, 0x07 );
61 fRegs[kPRECLK] = SimpleReg_t("PRECLK", 0x0A2C, 5, 0x07 );
62 fRegs[kADCEN] = SimpleReg_t("ADCEN", 0x0A2E, 5, 0x07 );
63 fRegs[kNIODE] = SimpleReg_t("NIODE", 0x0A30, 5, 0x07 );
64 fRegs[kNIOCE] = SimpleReg_t("NIOCE", 0x0A32, 6, 0x21 ); // bit 5 is status bit (read-only)!
65 fRegs[kNIIDE] = SimpleReg_t("NIIDE", 0x0A34, 5, 0x07 );
66 fRegs[kNIICE] = SimpleReg_t("NIICE", 0x0A36, 5, 0x07 );
67 fRegs[kARBTIM] = SimpleReg_t("ARBTIM", 0x0A3F, 4, 0x0 ); // Arbiter
68 fRegs[kIA0IRQ0] = SimpleReg_t("IA0IRQ0", 0x0B00, 12, 0x000 ); // IVT of CPU0
69 fRegs[kIA0IRQ1] = SimpleReg_t("IA0IRQ1", 0x0B01, 12, 0x000 );
70 fRegs[kIA0IRQ2] = SimpleReg_t("IA0IRQ2", 0x0B02, 12, 0x000 );
71 fRegs[kIA0IRQ3] = SimpleReg_t("IA0IRQ3", 0x0B03, 12, 0x000 );
72 fRegs[kIA0IRQ4] = SimpleReg_t("IA0IRQ4", 0x0B04, 12, 0x000 );
73 fRegs[kIA0IRQ5] = SimpleReg_t("IA0IRQ5", 0x0B05, 12, 0x000 );
74 fRegs[kIA0IRQ6] = SimpleReg_t("IA0IRQ6", 0x0B06, 12, 0x000 );
75 fRegs[kIA0IRQ7] = SimpleReg_t("IA0IRQ7", 0x0B07, 12, 0x000 );
76 fRegs[kIA0IRQ8] = SimpleReg_t("IA0IRQ8", 0x0B08, 12, 0x000 );
77 fRegs[kIA0IRQ9] = SimpleReg_t("IA0IRQ9", 0x0B09, 12, 0x000 );
78 fRegs[kIA0IRQA] = SimpleReg_t("IA0IRQA", 0x0B0A, 12, 0x000 );
79 fRegs[kIA0IRQB] = SimpleReg_t("IA0IRQB", 0x0B0B, 12, 0x000 );
80 fRegs[kIA0IRQC] = SimpleReg_t("IA0IRQC", 0x0B0C, 12, 0x000 );
81 fRegs[kIRQSW0] = SimpleReg_t("IRQSW0", 0x0B0D, 13, 0x1FFF );
82 fRegs[kIRQHW0] = SimpleReg_t("IRQHW0", 0x0B0E, 13, 0x0000 );
83 fRegs[kIRQHL0] = SimpleReg_t("IRQHL0", 0x0B0F, 13, 0x0000 );
84 fRegs[kIA1IRQ0] = SimpleReg_t("IA1IRQ0", 0x0B20, 12, 0x000 ); // IVT of CPU1
85 fRegs[kIA1IRQ1] = SimpleReg_t("IA1IRQ1", 0x0B21, 12, 0x000 );
86 fRegs[kIA1IRQ2] = SimpleReg_t("IA1IRQ2", 0x0B22, 12, 0x000 );
87 fRegs[kIA1IRQ3] = SimpleReg_t("IA1IRQ3", 0x0B23, 12, 0x000 );
88 fRegs[kIA1IRQ4] = SimpleReg_t("IA1IRQ4", 0x0B24, 12, 0x000 );
89 fRegs[kIA1IRQ5] = SimpleReg_t("IA1IRQ5", 0x0B25, 12, 0x000 );
90 fRegs[kIA1IRQ6] = SimpleReg_t("IA1IRQ6", 0x0B26, 12, 0x000 );
91 fRegs[kIA1IRQ7] = SimpleReg_t("IA1IRQ7", 0x0B27, 12, 0x000 );
92 fRegs[kIA1IRQ8] = SimpleReg_t("IA1IRQ8", 0x0B28, 12, 0x000 );
93 fRegs[kIA1IRQ9] = SimpleReg_t("IA1IRQ9", 0x0B29, 12, 0x000 );
94 fRegs[kIA1IRQA] = SimpleReg_t("IA1IRQA", 0x0B2A, 12, 0x000 );
95 fRegs[kIA1IRQB] = SimpleReg_t("IA1IRQB", 0x0B2B, 12, 0x000 );
96 fRegs[kIA1IRQC] = SimpleReg_t("IA1IRQC", 0x0B2C, 12, 0x000 );
97 fRegs[kIRQSW1] = SimpleReg_t("IRQSW1", 0x0B2D, 13, 0x1FFF );
98 fRegs[kIRQHW1] = SimpleReg_t("IRQHW1", 0x0B2E, 13, 0x0000 );
99 fRegs[kIRQHL1] = SimpleReg_t("IRQHL1", 0x0B2F, 13, 0x0000 );
100 fRegs[kIA2IRQ0] = SimpleReg_t("IA2IRQ0", 0x0B40, 12, 0x000 ); // IVT of CPU2
101 fRegs[kIA2IRQ1] = SimpleReg_t("IA2IRQ1", 0x0B41, 12, 0x000 );
102 fRegs[kIA2IRQ2] = SimpleReg_t("IA2IRQ2", 0x0B42, 12, 0x000 );
103 fRegs[kIA2IRQ3] = SimpleReg_t("IA2IRQ3", 0x0B43, 12, 0x000 );
104 fRegs[kIA2IRQ4] = SimpleReg_t("IA2IRQ4", 0x0B44, 12, 0x000 );
105 fRegs[kIA2IRQ5] = SimpleReg_t("IA2IRQ5", 0x0B45, 12, 0x000 );
106 fRegs[kIA2IRQ6] = SimpleReg_t("IA2IRQ6", 0x0B46, 12, 0x000 );
107 fRegs[kIA2IRQ7] = SimpleReg_t("IA2IRQ7", 0x0B47, 12, 0x000 );
108 fRegs[kIA2IRQ8] = SimpleReg_t("IA2IRQ8", 0x0B48, 12, 0x000 );
109 fRegs[kIA2IRQ9] = SimpleReg_t("IA2IRQ9", 0x0B49, 12, 0x000 );
110 fRegs[kIA2IRQA] = SimpleReg_t("IA2IRQA", 0x0B4A, 12, 0x000 );
111 fRegs[kIA2IRQB] = SimpleReg_t("IA2IRQB", 0x0B4B, 12, 0x000 );
112 fRegs[kIA2IRQC] = SimpleReg_t("IA2IRQC", 0x0B4C, 12, 0x000 );
113 fRegs[kIRQSW2] = SimpleReg_t("IRQSW2", 0x0B4D, 13, 0x1FFF );
114 fRegs[kIRQHW2] = SimpleReg_t("IRQHW2", 0x0B4E, 13, 0x0000 );
115 fRegs[kIRQHL2] = SimpleReg_t("IRQHL2", 0x0B4F, 13, 0x0000 );
116 fRegs[kIA3IRQ0] = SimpleReg_t("IA3IRQ0", 0x0B60, 12, 0x000 ); // IVT of CPU3
117 fRegs[kIA3IRQ1] = SimpleReg_t("IA3IRQ1", 0x0B61, 12, 0x000 );
118 fRegs[kIA3IRQ2] = SimpleReg_t("IA3IRQ2", 0x0B62, 12, 0x000 );
119 fRegs[kIA3IRQ3] = SimpleReg_t("IA3IRQ3", 0x0B63, 12, 0x000 );
120 fRegs[kIA3IRQ4] = SimpleReg_t("IA3IRQ4", 0x0B64, 12, 0x000 );
121 fRegs[kIA3IRQ5] = SimpleReg_t("IA3IRQ5", 0x0B65, 12, 0x000 );
122 fRegs[kIA3IRQ6] = SimpleReg_t("IA3IRQ6", 0x0B66, 12, 0x000 );
123 fRegs[kIA3IRQ7] = SimpleReg_t("IA3IRQ7", 0x0B67, 12, 0x000 );
124 fRegs[kIA3IRQ8] = SimpleReg_t("IA3IRQ8", 0x0B68, 12, 0x000 );
125 fRegs[kIA3IRQ9] = SimpleReg_t("IA3IRQ9", 0x0B69, 12, 0x000 );
126 fRegs[kIA3IRQA] = SimpleReg_t("IA3IRQA", 0x0B6A, 12, 0x000 );
127 fRegs[kIA3IRQB] = SimpleReg_t("IA3IRQB", 0x0B6B, 12, 0x000 );
128 fRegs[kIA3IRQC] = SimpleReg_t("IA3IRQC", 0x0B6C, 12, 0x000 );
129 fRegs[kIRQSW3] = SimpleReg_t("IRQSW3", 0x0B6D, 13, 0x1FFF );
130 fRegs[kIRQHW3] = SimpleReg_t("IRQHW3", 0x0B6E, 13, 0x0000 );
131 fRegs[kIRQHL3] = SimpleReg_t("IRQHL3", 0x0B6F, 13, 0x0000 );
132 fRegs[kCTGDINI] = SimpleReg_t("CTGDINI", 0x0B80, 32, 0x00000000 ); // Global Counter/Timer
133 fRegs[kCTGCTRL] = SimpleReg_t("CTGCTRL", 0x0B81, 12, 0xE3F );
134 fRegs[kC08CPU0] = SimpleReg_t("C08CPU0", 0x0C00, 32, 0x00000000 ); // CPU constants
135 fRegs[kC09CPU0] = SimpleReg_t("C09CPU0", 0x0C01, 32, 0x00000000 );
136 fRegs[kC10CPU0] = SimpleReg_t("C10CPU0", 0x0C02, 32, 0x00000000 );
137 fRegs[kC11CPU0] = SimpleReg_t("C11CPU0", 0x0C03, 32, 0x00000000 );
138 fRegs[kC12CPUA] = SimpleReg_t("C12CPUA", 0x0C04, 32, 0x00000000 );
139 fRegs[kC13CPUA] = SimpleReg_t("C13CPUA", 0x0C05, 32, 0x00000000 );
140 fRegs[kC14CPUA] = SimpleReg_t("C14CPUA", 0x0C06, 32, 0x00000000 );
141 fRegs[kC15CPUA] = SimpleReg_t("C15CPUA", 0x0C07, 32, 0x00000000 );
142 fRegs[kC08CPU1] = SimpleReg_t("C08CPU1", 0x0C08, 32, 0x00000000 );
143 fRegs[kC09CPU1] = SimpleReg_t("C09CPU1", 0x0C09, 32, 0x00000000 );
144 fRegs[kC10CPU1] = SimpleReg_t("C10CPU1", 0x0C0A, 32, 0x00000000 );
145 fRegs[kC11CPU1] = SimpleReg_t("C11CPU1", 0x0C0B, 32, 0x00000000 );
146 fRegs[kC08CPU2] = SimpleReg_t("C08CPU2", 0x0C10, 32, 0x00000000 );
147 fRegs[kC09CPU2] = SimpleReg_t("C09CPU2", 0x0C11, 32, 0x00000000 );
148 fRegs[kC10CPU2] = SimpleReg_t("C10CPU2", 0x0C12, 32, 0x00000000 );
149 fRegs[kC11CPU2] = SimpleReg_t("C11CPU2", 0x0C13, 32, 0x00000000 );
150 fRegs[kC08CPU3] = SimpleReg_t("C08CPU3", 0x0C18, 32, 0x00000000 );
151 fRegs[kC09CPU3] = SimpleReg_t("C09CPU3", 0x0C19, 32, 0x00000000 );
152 fRegs[kC10CPU3] = SimpleReg_t("C10CPU3", 0x0C1A, 32, 0x00000000 );
153 fRegs[kC11CPU3] = SimpleReg_t("C11CPU3", 0x0C1B, 32, 0x00000000 );
154 fRegs[kNMOD] = SimpleReg_t("NMOD", 0x0D40, 6, 0x08 ); // NI interface
155 fRegs[kNDLY] = SimpleReg_t("NDLY", 0x0D41, 30, 0x24924924 );
156 fRegs[kNED] = SimpleReg_t("NED", 0x0D42, 16, 0xA240 );
157 fRegs[kNTRO] = SimpleReg_t("NTRO", 0x0D43, 18, 0x3FFFC );
158 fRegs[kNRRO] = SimpleReg_t("NRRO", 0x0D44, 18, 0x3FFFC );
159 fRegs[kNES] = SimpleReg_t("NES", 0x0D45, 32, 0x00000000 );
160 fRegs[kNTP] = SimpleReg_t("NTP", 0x0D46, 32, 0x0000FFFF );
161 fRegs[kNBND] = SimpleReg_t("NBND", 0x0D47, 16, 0x6020 );
162 fRegs[kNP0] = SimpleReg_t("NP0", 0x0D48, 11, 0x44C );
163 fRegs[kNP1] = SimpleReg_t("NP1", 0x0D49, 11, 0x44C );
164 fRegs[kNP2] = SimpleReg_t("NP2", 0x0D4A, 11, 0x44C );
165 fRegs[kNP3] = SimpleReg_t("NP3", 0x0D4B, 11, 0x44C );
166 fRegs[kNCUT] = SimpleReg_t("NCUT", 0x0D4C, 32, 0xFFFFFFFF );
167 fRegs[kTPPT0] = SimpleReg_t("TPPT0", 0x3000, 7, 0x01 ); // Filter and Preprocessor
168 fRegs[kTPFS] = SimpleReg_t("TPFS", 0x3001, 7, 0x05 );
169 fRegs[kTPFE] = SimpleReg_t("TPFE", 0x3002, 7, 0x14 );
170 fRegs[kTPPGR] = SimpleReg_t("TPPGR", 0x3003, 7, 0x15 );
171 fRegs[kTPPAE] = SimpleReg_t("TPPAE", 0x3004, 7, 0x1E );
172 fRegs[kTPQS0] = SimpleReg_t("TPQS0", 0x3005, 7, 0x00 );
173 fRegs[kTPQE0] = SimpleReg_t("TPQE0", 0x3006, 7, 0x0A );
174 fRegs[kTPQS1] = SimpleReg_t("TPQS1", 0x3007, 7, 0x0B );
175 fRegs[kTPQE1] = SimpleReg_t("TPQE1", 0x3008, 7, 0x14 );
176 fRegs[kEBD] = SimpleReg_t("EBD", 0x3009, 3, 0x0 );
177 fRegs[kEBAQA] = SimpleReg_t("EBAQA", 0x300A, 7, 0x00 );
178 fRegs[kEBSIA] = SimpleReg_t("EBSIA", 0x300B, 7, 0x20 );
179 fRegs[kEBSF] = SimpleReg_t("EBSF", 0x300C, 1, 0x1 );
180 fRegs[kEBSIM] = SimpleReg_t("EBSIM", 0x300D, 1, 0x1 );
181 fRegs[kEBPP] = SimpleReg_t("EBPP", 0x300E, 1, 0x1 );
182 fRegs[kEBPC] = SimpleReg_t("EBPC", 0x300F, 1, 0x1 );
183 fRegs[kEBIS] = SimpleReg_t("EBIS", 0x3014, 10, 0x005 );
184 fRegs[kEBIT] = SimpleReg_t("EBIT", 0x3015, 12, 0x028 );
185 fRegs[kEBIL] = SimpleReg_t("EBIL", 0x3016, 8, 0xF0 );
186 fRegs[kEBIN] = SimpleReg_t("EBIN", 0x3017, 1, 0x1 );
187 fRegs[kFLBY] = SimpleReg_t("FLBY", 0x3018, 1, 0x0 );
188 fRegs[kFPBY] = SimpleReg_t("FPBY", 0x3019, 1, 0x0 );
189 fRegs[kFGBY] = SimpleReg_t("FGBY", 0x301A, 1, 0x0 );
190 fRegs[kFTBY] = SimpleReg_t("FTBY", 0x301B, 1, 0x0 );
191 fRegs[kFCBY] = SimpleReg_t("FCBY", 0x301C, 1, 0x0 );
192 fRegs[kFPTC] = SimpleReg_t("FPTC", 0x3020, 2, 0x3 );
193 fRegs[kFPNP] = SimpleReg_t("FPNP", 0x3021, 9, 0x078 );
194 fRegs[kFPCL] = SimpleReg_t("FPCL", 0x3022, 1, 0x1 );
195 fRegs[kFGTA] = SimpleReg_t("FGTA", 0x3028, 12, 0x014 );
196 fRegs[kFGTB] = SimpleReg_t("FGTB", 0x3029, 12, 0x80C );
197 fRegs[kFGCL] = SimpleReg_t("FGCL", 0x302A, 1, 0x1 );
198 fRegs[kFTAL] = SimpleReg_t("FTAL", 0x3030, 10, 0x0F6 );
199 fRegs[kFTLL] = SimpleReg_t("FTLL", 0x3031, 9, 0x11D );
200 fRegs[kFTLS] = SimpleReg_t("FTLS", 0x3032, 9, 0x0D3 );
201 fRegs[kFCW1] = SimpleReg_t("FCW1", 0x3038, 8, 0x1E );
202 fRegs[kFCW2] = SimpleReg_t("FCW2", 0x3039, 8, 0xD4 );
203 fRegs[kFCW3] = SimpleReg_t("FCW3", 0x303A, 8, 0xE6 );
204 fRegs[kFCW4] = SimpleReg_t("FCW4", 0x303B, 8, 0x4A );
205 fRegs[kFCW5] = SimpleReg_t("FCW5", 0x303C, 8, 0xEF );
206 fRegs[kTPFP] = SimpleReg_t("TPFP", 0x3040, 9, 0x037 );
207 fRegs[kTPHT] = SimpleReg_t("TPHT", 0x3041, 14, 0x00A0 );
208 fRegs[kTPVT] = SimpleReg_t("TPVT", 0x3042, 6, 0x00 );
209 fRegs[kTPVBY] = SimpleReg_t("TPVBY", 0x3043, 1, 0x0 );
210 fRegs[kTPCT] = SimpleReg_t("TPCT", 0x3044, 5, 0x08 );
211 fRegs[kTPCL] = SimpleReg_t("TPCL", 0x3045, 5, 0x01 );
212 fRegs[kTPCBY] = SimpleReg_t("TPCBY", 0x3046, 1, 0x1 );
213 fRegs[kTPD] = SimpleReg_t("TPD", 0x3047, 4, 0xF );
214 fRegs[kTPCI0] = SimpleReg_t("TPCI0", 0x3048, 5, 0x00 );
215 fRegs[kTPCI1] = SimpleReg_t("TPCI1", 0x3049, 5, 0x00 );
216 fRegs[kTPCI2] = SimpleReg_t("TPCI2", 0x304A, 5, 0x00 );
217 fRegs[kTPCI3] = SimpleReg_t("TPCI3", 0x304B, 5, 0x00 );
218 fRegs[kADCMSK] = SimpleReg_t("ADCMSK", 0x3050, 21, 0x1FFFFF );
219 fRegs[kADCINB] = SimpleReg_t("ADCINB", 0x3051, 2, 0x2 );
220 fRegs[kADCDAC] = SimpleReg_t("ADCDAC", 0x3052, 5, 0x10 );
221 fRegs[kADCPAR] = SimpleReg_t("ADCPAR", 0x3053, 18, 0x195EF );
222 fRegs[kADCTST] = SimpleReg_t("ADCTST", 0x3054, 2, 0x0 );
223 fRegs[kSADCAZ] = SimpleReg_t("SADCAZ", 0x3055, 1, 0x1 );
224 fRegs[kFGF0] = SimpleReg_t("FGF0", 0x3080, 9, 0x000 );
225 fRegs[kFGF1] = SimpleReg_t("FGF1", 0x3081, 9, 0x000 );
226 fRegs[kFGF2] = SimpleReg_t("FGF2", 0x3082, 9, 0x000 );
227 fRegs[kFGF3] = SimpleReg_t("FGF3", 0x3083, 9, 0x000 );
228 fRegs[kFGF4] = SimpleReg_t("FGF4", 0x3084, 9, 0x000 );
229 fRegs[kFGF5] = SimpleReg_t("FGF5", 0x3085, 9, 0x000 );
230 fRegs[kFGF6] = SimpleReg_t("FGF6", 0x3086, 9, 0x000 );
231 fRegs[kFGF7] = SimpleReg_t("FGF7", 0x3087, 9, 0x000 );
232 fRegs[kFGF8] = SimpleReg_t("FGF8", 0x3088, 9, 0x000 );
233 fRegs[kFGF9] = SimpleReg_t("FGF9", 0x3089, 9, 0x000 );
234 fRegs[kFGF10] = SimpleReg_t("FGF10", 0x308A, 9, 0x000 );
235 fRegs[kFGF11] = SimpleReg_t("FGF11", 0x308B, 9, 0x000 );
236 fRegs[kFGF12] = SimpleReg_t("FGF12", 0x308C, 9, 0x000 );
237 fRegs[kFGF13] = SimpleReg_t("FGF13", 0x308D, 9, 0x000 );
238 fRegs[kFGF14] = SimpleReg_t("FGF14", 0x308E, 9, 0x000 );
239 fRegs[kFGF15] = SimpleReg_t("FGF15", 0x308F, 9, 0x000 );
240 fRegs[kFGF16] = SimpleReg_t("FGF16", 0x3090, 9, 0x000 );
241 fRegs[kFGF17] = SimpleReg_t("FGF17", 0x3091, 9, 0x000 );
242 fRegs[kFGF18] = SimpleReg_t("FGF18", 0x3092, 9, 0x000 );
243 fRegs[kFGF19] = SimpleReg_t("FGF19", 0x3093, 9, 0x000 );
244 fRegs[kFGF20] = SimpleReg_t("FGF20", 0x3094, 9, 0x000 );
245 fRegs[kFGA0] = SimpleReg_t("FGA0", 0x30A0, 6, 0x00 );
246 fRegs[kFGA1] = SimpleReg_t("FGA1", 0x30A1, 6, 0x00 );
247 fRegs[kFGA2] = SimpleReg_t("FGA2", 0x30A2, 6, 0x00 );
248 fRegs[kFGA3] = SimpleReg_t("FGA3", 0x30A3, 6, 0x00 );
249 fRegs[kFGA4] = SimpleReg_t("FGA4", 0x30A4, 6, 0x00 );
250 fRegs[kFGA5] = SimpleReg_t("FGA5", 0x30A5, 6, 0x00 );
251 fRegs[kFGA6] = SimpleReg_t("FGA6", 0x30A6, 6, 0x00 );
252 fRegs[kFGA7] = SimpleReg_t("FGA7", 0x30A7, 6, 0x00 );
253 fRegs[kFGA8] = SimpleReg_t("FGA8", 0x30A8, 6, 0x00 );
254 fRegs[kFGA9] = SimpleReg_t("FGA9", 0x30A9, 6, 0x00 );
255 fRegs[kFGA10] = SimpleReg_t("FGA10", 0x30AA, 6, 0x00 );
256 fRegs[kFGA11] = SimpleReg_t("FGA11", 0x30AB, 6, 0x00 );
257 fRegs[kFGA12] = SimpleReg_t("FGA12", 0x30AC, 6, 0x00 );
258 fRegs[kFGA13] = SimpleReg_t("FGA13", 0x30AD, 6, 0x00 );
259 fRegs[kFGA14] = SimpleReg_t("FGA14", 0x30AE, 6, 0x00 );
260 fRegs[kFGA15] = SimpleReg_t("FGA15", 0x30AF, 6, 0x00 );
261 fRegs[kFGA16] = SimpleReg_t("FGA16", 0x30B0, 6, 0x00 );
262 fRegs[kFGA17] = SimpleReg_t("FGA17", 0x30B1, 6, 0x00 );
263 fRegs[kFGA18] = SimpleReg_t("FGA18", 0x30B2, 6, 0x00 );
264 fRegs[kFGA19] = SimpleReg_t("FGA19", 0x30B3, 6, 0x00 );
265 fRegs[kFGA20] = SimpleReg_t("FGA20", 0x30B4, 6, 0x00 );
266 fRegs[kFLL00] = SimpleReg_t("FLL00", 0x3100, 6, 0x00 ); // non-linearity table, 64 x 6 bits
267 fRegs[kFLL01] = SimpleReg_t("FLL01", 0x3101, 6, 0x00 );
268 fRegs[kFLL02] = SimpleReg_t("FLL02", 0x3102, 6, 0x00 );
269 fRegs[kFLL03] = SimpleReg_t("FLL03", 0x3103, 6, 0x00 );
270 fRegs[kFLL04] = SimpleReg_t("FLL04", 0x3104, 6, 0x00 );
271 fRegs[kFLL05] = SimpleReg_t("FLL05", 0x3105, 6, 0x00 );
272 fRegs[kFLL06] = SimpleReg_t("FLL06", 0x3106, 6, 0x00 );
273 fRegs[kFLL07] = SimpleReg_t("FLL07", 0x3107, 6, 0x00 );
274 fRegs[kFLL08] = SimpleReg_t("FLL08", 0x3108, 6, 0x00 );
275 fRegs[kFLL09] = SimpleReg_t("FLL09", 0x3109, 6, 0x00 );
276 fRegs[kFLL0A] = SimpleReg_t("FLL0A", 0x310A, 6, 0x00 );
277 fRegs[kFLL0B] = SimpleReg_t("FLL0B", 0x310B, 6, 0x00 );
278 fRegs[kFLL0C] = SimpleReg_t("FLL0C", 0x310C, 6, 0x00 );
279 fRegs[kFLL0D] = SimpleReg_t("FLL0D", 0x310D, 6, 0x00 );
280 fRegs[kFLL0E] = SimpleReg_t("FLL0E", 0x310E, 6, 0x00 );
281 fRegs[kFLL0F] = SimpleReg_t("FLL0F", 0x310F, 6, 0x00 );
282 fRegs[kFLL10] = SimpleReg_t("FLL10", 0x3110, 6, 0x00 );
283 fRegs[kFLL11] = SimpleReg_t("FLL11", 0x3111, 6, 0x00 );
284 fRegs[kFLL12] = SimpleReg_t("FLL12", 0x3112, 6, 0x00 );
285 fRegs[kFLL13] = SimpleReg_t("FLL13", 0x3113, 6, 0x00 );
286 fRegs[kFLL14] = SimpleReg_t("FLL14", 0x3114, 6, 0x00 );
287 fRegs[kFLL15] = SimpleReg_t("FLL15", 0x3115, 6, 0x00 );
288 fRegs[kFLL16] = SimpleReg_t("FLL16", 0x3116, 6, 0x00 );
289 fRegs[kFLL17] = SimpleReg_t("FLL17", 0x3117, 6, 0x00 );
290 fRegs[kFLL18] = SimpleReg_t("FLL18", 0x3118, 6, 0x00 );
291 fRegs[kFLL19] = SimpleReg_t("FLL19", 0x3119, 6, 0x00 );
292 fRegs[kFLL1A] = SimpleReg_t("FLL1A", 0x311A, 6, 0x00 );
293 fRegs[kFLL1B] = SimpleReg_t("FLL1B", 0x311B, 6, 0x00 );
294 fRegs[kFLL1C] = SimpleReg_t("FLL1C", 0x311C, 6, 0x00 );
295 fRegs[kFLL1D] = SimpleReg_t("FLL1D", 0x311D, 6, 0x00 );
296 fRegs[kFLL1E] = SimpleReg_t("FLL1E", 0x311E, 6, 0x00 );
297 fRegs[kFLL1F] = SimpleReg_t("FLL1F", 0x311F, 6, 0x00 );
298 fRegs[kFLL20] = SimpleReg_t("FLL20", 0x3120, 6, 0x00 );
299 fRegs[kFLL21] = SimpleReg_t("FLL21", 0x3121, 6, 0x00 );
300 fRegs[kFLL22] = SimpleReg_t("FLL22", 0x3122, 6, 0x00 );
301 fRegs[kFLL23] = SimpleReg_t("FLL23", 0x3123, 6, 0x00 );
302 fRegs[kFLL24] = SimpleReg_t("FLL24", 0x3124, 6, 0x00 );
303 fRegs[kFLL25] = SimpleReg_t("FLL25", 0x3125, 6, 0x00 );
304 fRegs[kFLL26] = SimpleReg_t("FLL26", 0x3126, 6, 0x00 );
305 fRegs[kFLL27] = SimpleReg_t("FLL27", 0x3127, 6, 0x00 );
306 fRegs[kFLL28] = SimpleReg_t("FLL28", 0x3128, 6, 0x00 );
307 fRegs[kFLL29] = SimpleReg_t("FLL29", 0x3129, 6, 0x00 );
308 fRegs[kFLL2A] = SimpleReg_t("FLL2A", 0x312A, 6, 0x00 );
309 fRegs[kFLL2B] = SimpleReg_t("FLL2B", 0x312B, 6, 0x00 );
310 fRegs[kFLL2C] = SimpleReg_t("FLL2C", 0x312C, 6, 0x00 );
311 fRegs[kFLL2D] = SimpleReg_t("FLL2D", 0x312D, 6, 0x00 );
312 fRegs[kFLL2E] = SimpleReg_t("FLL2E", 0x312E, 6, 0x00 );
313 fRegs[kFLL2F] = SimpleReg_t("FLL2F", 0x312F, 6, 0x00 );
314 fRegs[kFLL30] = SimpleReg_t("FLL30", 0x3130, 6, 0x00 );
315 fRegs[kFLL31] = SimpleReg_t("FLL31", 0x3131, 6, 0x00 );
316 fRegs[kFLL32] = SimpleReg_t("FLL32", 0x3132, 6, 0x00 );
317 fRegs[kFLL33] = SimpleReg_t("FLL33", 0x3133, 6, 0x00 );
318 fRegs[kFLL34] = SimpleReg_t("FLL34", 0x3134, 6, 0x00 );
319 fRegs[kFLL35] = SimpleReg_t("FLL35", 0x3135, 6, 0x00 );
320 fRegs[kFLL36] = SimpleReg_t("FLL36", 0x3136, 6, 0x00 );
321 fRegs[kFLL37] = SimpleReg_t("FLL37", 0x3137, 6, 0x00 );
322 fRegs[kFLL38] = SimpleReg_t("FLL38", 0x3138, 6, 0x00 );
323 fRegs[kFLL39] = SimpleReg_t("FLL39", 0x3139, 6, 0x00 );
324 fRegs[kFLL3A] = SimpleReg_t("FLL3A", 0x313A, 6, 0x00 );
325 fRegs[kFLL3B] = SimpleReg_t("FLL3B", 0x313B, 6, 0x00 );
326 fRegs[kFLL3C] = SimpleReg_t("FLL3C", 0x313C, 6, 0x00 );
327 fRegs[kFLL3D] = SimpleReg_t("FLL3D", 0x313D, 6, 0x00 );
328 fRegs[kFLL3E] = SimpleReg_t("FLL3E", 0x313E, 6, 0x00 );
329 fRegs[kFLL3F] = SimpleReg_t("FLL3F", 0x313F, 6, 0x00 );
330 fRegs[kPASADEL] = SimpleReg_t("PASADEL", 0x3158, 8, 0xFF ); // end of non-lin table
331 fRegs[kPASAPHA] = SimpleReg_t("PASAPHA", 0x3159, 6, 0x3F );
332 fRegs[kPASAPRA] = SimpleReg_t("PASAPRA", 0x315A, 6, 0x0F );
333 fRegs[kPASADAC] = SimpleReg_t("PASADAC", 0x315B, 8, 0x80 );
334 fRegs[kPASACHM] = SimpleReg_t("PASACHM", 0x315C, 19, 0x7FFFF );
335 fRegs[kPASASTL] = SimpleReg_t("PASASTL", 0x315D, 8, 0xFF );
336 fRegs[kPASAPR1] = SimpleReg_t("PASAPR1", 0x315E, 1, 0x0 );
337 fRegs[kPASAPR0] = SimpleReg_t("PASAPR0", 0x315F, 1, 0x0 );
338 fRegs[kSADCTRG] = SimpleReg_t("SADCTRG", 0x3161, 1, 0x0 );
339 fRegs[kSADCRUN] = SimpleReg_t("SADCRUN", 0x3162, 1, 0x0 );
340 fRegs[kSADCPWR] = SimpleReg_t("SADCPWR", 0x3163, 3, 0x7 );
341 fRegs[kL0TSIM] = SimpleReg_t("L0TSIM", 0x3165, 14, 0x0050 );
342 fRegs[kSADCEC] = SimpleReg_t("SADCEC", 0x3166, 7, 0x00 );
343 fRegs[kSADCMC] = SimpleReg_t("SADCMC", 0x3170, 8, 0xC0 );
344 fRegs[kSADCOC] = SimpleReg_t("SADCOC", 0x3171, 8, 0x19 );
345 fRegs[kSADCGTB] = SimpleReg_t("SADCGTB", 0x3172, 32, 0x37737700 );
346 fRegs[kSEBDEN] = SimpleReg_t("SEBDEN", 0x3178, 3, 0x0 );
347 fRegs[kSEBDOU] = SimpleReg_t("SEBDOU", 0x3179, 3, 0x0 );
348 fRegs[kTPL00] = SimpleReg_t("TPL00", 0x3180, 5, 0x00 ); // pos table, 128 x 5 bits
349 fRegs[kTPL01] = SimpleReg_t("TPL01", 0x3181, 5, 0x00 );
350 fRegs[kTPL02] = SimpleReg_t("TPL02", 0x3182, 5, 0x00 );
351 fRegs[kTPL03] = SimpleReg_t("TPL03", 0x3183, 5, 0x00 );
352 fRegs[kTPL04] = SimpleReg_t("TPL04", 0x3184, 5, 0x00 );
353 fRegs[kTPL05] = SimpleReg_t("TPL05", 0x3185, 5, 0x00 );
354 fRegs[kTPL06] = SimpleReg_t("TPL06", 0x3186, 5, 0x00 );
355 fRegs[kTPL07] = SimpleReg_t("TPL07", 0x3187, 5, 0x00 );
356 fRegs[kTPL08] = SimpleReg_t("TPL08", 0x3188, 5, 0x00 );
357 fRegs[kTPL09] = SimpleReg_t("TPL09", 0x3189, 5, 0x00 );
358 fRegs[kTPL0A] = SimpleReg_t("TPL0A", 0x318A, 5, 0x00 );
359 fRegs[kTPL0B] = SimpleReg_t("TPL0B", 0x318B, 5, 0x00 );
360 fRegs[kTPL0C] = SimpleReg_t("TPL0C", 0x318C, 5, 0x00 );
361 fRegs[kTPL0D] = SimpleReg_t("TPL0D", 0x318D, 5, 0x00 );
362 fRegs[kTPL0E] = SimpleReg_t("TPL0E", 0x318E, 5, 0x00 );
363 fRegs[kTPL0F] = SimpleReg_t("TPL0F", 0x318F, 5, 0x00 );
364 fRegs[kTPL10] = SimpleReg_t("TPL10", 0x3190, 5, 0x00 );
365 fRegs[kTPL11] = SimpleReg_t("TPL11", 0x3191, 5, 0x00 );
366 fRegs[kTPL12] = SimpleReg_t("TPL12", 0x3192, 5, 0x00 );
367 fRegs[kTPL13] = SimpleReg_t("TPL13", 0x3193, 5, 0x00 );
368 fRegs[kTPL14] = SimpleReg_t("TPL14", 0x3194, 5, 0x00 );
369 fRegs[kTPL15] = SimpleReg_t("TPL15", 0x3195, 5, 0x00 );
370 fRegs[kTPL16] = SimpleReg_t("TPL16", 0x3196, 5, 0x00 );
371 fRegs[kTPL17] = SimpleReg_t("TPL17", 0x3197, 5, 0x00 );
372 fRegs[kTPL18] = SimpleReg_t("TPL18", 0x3198, 5, 0x00 );
373 fRegs[kTPL19] = SimpleReg_t("TPL19", 0x3199, 5, 0x00 );
374 fRegs[kTPL1A] = SimpleReg_t("TPL1A", 0x319A, 5, 0x00 );
375 fRegs[kTPL1B] = SimpleReg_t("TPL1B", 0x319B, 5, 0x00 );
376 fRegs[kTPL1C] = SimpleReg_t("TPL1C", 0x319C, 5, 0x00 );
377 fRegs[kTPL1D] = SimpleReg_t("TPL1D", 0x319D, 5, 0x00 );
378 fRegs[kTPL1E] = SimpleReg_t("TPL1E", 0x319E, 5, 0x00 );
379 fRegs[kTPL1F] = SimpleReg_t("TPL1F", 0x319F, 5, 0x00 );
380 fRegs[kTPL20] = SimpleReg_t("TPL20", 0x31A0, 5, 0x00 );
381 fRegs[kTPL21] = SimpleReg_t("TPL21", 0x31A1, 5, 0x00 );
382 fRegs[kTPL22] = SimpleReg_t("TPL22", 0x31A2, 5, 0x00 );
383 fRegs[kTPL23] = SimpleReg_t("TPL23", 0x31A3, 5, 0x00 );
384 fRegs[kTPL24] = SimpleReg_t("TPL24", 0x31A4, 5, 0x00 );
385 fRegs[kTPL25] = SimpleReg_t("TPL25", 0x31A5, 5, 0x00 );
386 fRegs[kTPL26] = SimpleReg_t("TPL26", 0x31A6, 5, 0x00 );
387 fRegs[kTPL27] = SimpleReg_t("TPL27", 0x31A7, 5, 0x00 );
388 fRegs[kTPL28] = SimpleReg_t("TPL28", 0x31A8, 5, 0x00 );
389 fRegs[kTPL29] = SimpleReg_t("TPL29", 0x31A9, 5, 0x00 );
390 fRegs[kTPL2A] = SimpleReg_t("TPL2A", 0x31AA, 5, 0x00 );
391 fRegs[kTPL2B] = SimpleReg_t("TPL2B", 0x31AB, 5, 0x00 );
392 fRegs[kTPL2C] = SimpleReg_t("TPL2C", 0x31AC, 5, 0x00 );
393 fRegs[kTPL2D] = SimpleReg_t("TPL2D", 0x31AD, 5, 0x00 );
394 fRegs[kTPL2E] = SimpleReg_t("TPL2E", 0x31AE, 5, 0x00 );
395 fRegs[kTPL2F] = SimpleReg_t("TPL2F", 0x31AF, 5, 0x00 );
396 fRegs[kTPL30] = SimpleReg_t("TPL30", 0x31B0, 5, 0x00 );
397 fRegs[kTPL31] = SimpleReg_t("TPL31", 0x31B1, 5, 0x00 );
398 fRegs[kTPL32] = SimpleReg_t("TPL32", 0x31B2, 5, 0x00 );
399 fRegs[kTPL33] = SimpleReg_t("TPL33", 0x31B3, 5, 0x00 );
400 fRegs[kTPL34] = SimpleReg_t("TPL34", 0x31B4, 5, 0x00 );
401 fRegs[kTPL35] = SimpleReg_t("TPL35", 0x31B5, 5, 0x00 );
402 fRegs[kTPL36] = SimpleReg_t("TPL36", 0x31B6, 5, 0x00 );
403 fRegs[kTPL37] = SimpleReg_t("TPL37", 0x31B7, 5, 0x00 );
404 fRegs[kTPL38] = SimpleReg_t("TPL38", 0x31B8, 5, 0x00 );
405 fRegs[kTPL39] = SimpleReg_t("TPL39", 0x31B9, 5, 0x00 );
406 fRegs[kTPL3A] = SimpleReg_t("TPL3A", 0x31BA, 5, 0x00 );
407 fRegs[kTPL3B] = SimpleReg_t("TPL3B", 0x31BB, 5, 0x00 );
408 fRegs[kTPL3C] = SimpleReg_t("TPL3C", 0x31BC, 5, 0x00 );
409 fRegs[kTPL3D] = SimpleReg_t("TPL3D", 0x31BD, 5, 0x00 );
410 fRegs[kTPL3E] = SimpleReg_t("TPL3E", 0x31BE, 5, 0x00 );
411 fRegs[kTPL3F] = SimpleReg_t("TPL3F", 0x31BF, 5, 0x00 );
412 fRegs[kTPL40] = SimpleReg_t("TPL40", 0x31C0, 5, 0x00 );
413 fRegs[kTPL41] = SimpleReg_t("TPL41", 0x31C1, 5, 0x00 );
414 fRegs[kTPL42] = SimpleReg_t("TPL42", 0x31C2, 5, 0x00 );
415 fRegs[kTPL43] = SimpleReg_t("TPL43", 0x31C3, 5, 0x00 );
416 fRegs[kTPL44] = SimpleReg_t("TPL44", 0x31C4, 5, 0x00 );
417 fRegs[kTPL45] = SimpleReg_t("TPL45", 0x31C5, 5, 0x00 );
418 fRegs[kTPL46] = SimpleReg_t("TPL46", 0x31C6, 5, 0x00 );
419 fRegs[kTPL47] = SimpleReg_t("TPL47", 0x31C7, 5, 0x00 );
420 fRegs[kTPL48] = SimpleReg_t("TPL48", 0x31C8, 5, 0x00 );
421 fRegs[kTPL49] = SimpleReg_t("TPL49", 0x31C9, 5, 0x00 );
422 fRegs[kTPL4A] = SimpleReg_t("TPL4A", 0x31CA, 5, 0x00 );
423 fRegs[kTPL4B] = SimpleReg_t("TPL4B", 0x31CB, 5, 0x00 );
424 fRegs[kTPL4C] = SimpleReg_t("TPL4C", 0x31CC, 5, 0x00 );
425 fRegs[kTPL4D] = SimpleReg_t("TPL4D", 0x31CD, 5, 0x00 );
426 fRegs[kTPL4E] = SimpleReg_t("TPL4E", 0x31CE, 5, 0x00 );
427 fRegs[kTPL4F] = SimpleReg_t("TPL4F", 0x31CF, 5, 0x00 );
428 fRegs[kTPL50] = SimpleReg_t("TPL50", 0x31D0, 5, 0x00 );
429 fRegs[kTPL51] = SimpleReg_t("TPL51", 0x31D1, 5, 0x00 );
430 fRegs[kTPL52] = SimpleReg_t("TPL52", 0x31D2, 5, 0x00 );
431 fRegs[kTPL53] = SimpleReg_t("TPL53", 0x31D3, 5, 0x00 );
432 fRegs[kTPL54] = SimpleReg_t("TPL54", 0x31D4, 5, 0x00 );
433 fRegs[kTPL55] = SimpleReg_t("TPL55", 0x31D5, 5, 0x00 );
434 fRegs[kTPL56] = SimpleReg_t("TPL56", 0x31D6, 5, 0x00 );
435 fRegs[kTPL57] = SimpleReg_t("TPL57", 0x31D7, 5, 0x00 );
436 fRegs[kTPL58] = SimpleReg_t("TPL58", 0x31D8, 5, 0x00 );
437 fRegs[kTPL59] = SimpleReg_t("TPL59", 0x31D9, 5, 0x00 );
438 fRegs[kTPL5A] = SimpleReg_t("TPL5A", 0x31DA, 5, 0x00 );
439 fRegs[kTPL5B] = SimpleReg_t("TPL5B", 0x31DB, 5, 0x00 );
440 fRegs[kTPL5C] = SimpleReg_t("TPL5C", 0x31DC, 5, 0x00 );
441 fRegs[kTPL5D] = SimpleReg_t("TPL5D", 0x31DD, 5, 0x00 );
442 fRegs[kTPL5E] = SimpleReg_t("TPL5E", 0x31DE, 5, 0x00 );
443 fRegs[kTPL5F] = SimpleReg_t("TPL5F", 0x31DF, 5, 0x00 );
444 fRegs[kTPL60] = SimpleReg_t("TPL60", 0x31E0, 5, 0x00 );
445 fRegs[kTPL61] = SimpleReg_t("TPL61", 0x31E1, 5, 0x00 );
446 fRegs[kTPL62] = SimpleReg_t("TPL62", 0x31E2, 5, 0x00 );
447 fRegs[kTPL63] = SimpleReg_t("TPL63", 0x31E3, 5, 0x00 );
448 fRegs[kTPL64] = SimpleReg_t("TPL64", 0x31E4, 5, 0x00 );
449 fRegs[kTPL65] = SimpleReg_t("TPL65", 0x31E5, 5, 0x00 );
450 fRegs[kTPL66] = SimpleReg_t("TPL66", 0x31E6, 5, 0x00 );
451 fRegs[kTPL67] = SimpleReg_t("TPL67", 0x31E7, 5, 0x00 );
452 fRegs[kTPL68] = SimpleReg_t("TPL68", 0x31E8, 5, 0x00 );
453 fRegs[kTPL69] = SimpleReg_t("TPL69", 0x31E9, 5, 0x00 );
454 fRegs[kTPL6A] = SimpleReg_t("TPL6A", 0x31EA, 5, 0x00 );
455 fRegs[kTPL6B] = SimpleReg_t("TPL6B", 0x31EB, 5, 0x00 );
456 fRegs[kTPL6C] = SimpleReg_t("TPL6C", 0x31EC, 5, 0x00 );
457 fRegs[kTPL6D] = SimpleReg_t("TPL6D", 0x31ED, 5, 0x00 );
458 fRegs[kTPL6E] = SimpleReg_t("TPL6E", 0x31EE, 5, 0x00 );
459 fRegs[kTPL6F] = SimpleReg_t("TPL6F", 0x31EF, 5, 0x00 );
460 fRegs[kTPL70] = SimpleReg_t("TPL70", 0x31F0, 5, 0x00 );
461 fRegs[kTPL71] = SimpleReg_t("TPL71", 0x31F1, 5, 0x00 );
462 fRegs[kTPL72] = SimpleReg_t("TPL72", 0x31F2, 5, 0x00 );
463 fRegs[kTPL73] = SimpleReg_t("TPL73", 0x31F3, 5, 0x00 );
464 fRegs[kTPL74] = SimpleReg_t("TPL74", 0x31F4, 5, 0x00 );
465 fRegs[kTPL75] = SimpleReg_t("TPL75", 0x31F5, 5, 0x00 );
466 fRegs[kTPL76] = SimpleReg_t("TPL76", 0x31F6, 5, 0x00 );
467 fRegs[kTPL77] = SimpleReg_t("TPL77", 0x31F7, 5, 0x00 );
468 fRegs[kTPL78] = SimpleReg_t("TPL78", 0x31F8, 5, 0x00 );
469 fRegs[kTPL79] = SimpleReg_t("TPL79", 0x31F9, 5, 0x00 );
470 fRegs[kTPL7A] = SimpleReg_t("TPL7A", 0x31FA, 5, 0x00 );
471 fRegs[kTPL7B] = SimpleReg_t("TPL7B", 0x31FB, 5, 0x00 );
472 fRegs[kTPL7C] = SimpleReg_t("TPL7C", 0x31FC, 5, 0x00 );
473 fRegs[kTPL7D] = SimpleReg_t("TPL7D", 0x31FD, 5, 0x00 );
474 fRegs[kTPL7E] = SimpleReg_t("TPL7E", 0x31FE, 5, 0x00 );
475 fRegs[kTPL7F] = SimpleReg_t("TPL7F", 0x31FF, 5, 0x00 );
476 fRegs[kMEMRW] = SimpleReg_t("MEMRW", 0xD000, 7, 0x79 ); // end of pos table
477 fRegs[kMEMCOR] = SimpleReg_t("MEMCOR", 0xD001, 9, 0x000 );
478 fRegs[kDMDELA] = SimpleReg_t("DMDELA", 0xD002, 4, 0x8 );
479 fRegs[kDMDELS] = SimpleReg_t("DMDELS", 0xD003, 4, 0x8 );
480
8ea391e3 481
482
483 for(Int_t iAddr = 0; iAddr < fgkDmemWords; iAddr++) {
484
485 if(iAddr == fgkDmemAddrDeflCorr - fgkDmemStartAddress) {
486 fDmem[iAddr] = new UInt_t[fgkDmemSizeSmIndividual];
487 fDmemDepth[iAddr] = fgkDmemSizeSmIndividual;
488 }
489
490 else if(iAddr == fgkDmemAddrNdrift - fgkDmemStartAddress) {
491 fDmem[iAddr] = new UInt_t[fgkDmemSizeSmRocIndividual];
492 fDmemDepth[iAddr] = fgkDmemSizeSmRocIndividual;
493 }
494
495 else if(iAddr >= fgkDmemAddrDeflCutStart-fgkDmemStartAddress && iAddr <= fgkDmemAddrDeflCutEnd-fgkDmemStartAddress) {
496 fDmem[iAddr] = new UInt_t[fgkDmemSizeSmIndividual];
497 fDmemDepth[iAddr] = fgkDmemSizeSmIndividual;
498 }
499
500 else if(iAddr >= fgkDmemAddrTrackletStart-fgkDmemStartAddress && iAddr <= fgkDmemAddrTrackletEnd-fgkDmemStartAddress) {
501 fDmem[iAddr] = new UInt_t[fgkDmemSizeTotalIndividual];
502 fDmemDepth[iAddr] = fgkDmemSizeTotalIndividual;
503 }
504
505 else if(iAddr >= fgkDmemAddrLUTStart-fgkDmemStartAddress && iAddr <= fgkDmemAddrLUTEnd-fgkDmemStartAddress) {
506 fDmem[iAddr] = new UInt_t; // same value for all MCMs
507 fDmemDepth[iAddr] = fgkDmemSizeUniform;
508 }
509
510 else if(iAddr == fgkDmemAddrLUTcor0-fgkDmemStartAddress) {
511 fDmem[iAddr] = new UInt_t[fgkDmemSizeSmIndividual];
512 fDmemDepth[iAddr] = fgkDmemSizeSmIndividual;
513 }
514
515 else if(iAddr == fgkDmemAddrLUTcor1-fgkDmemStartAddress) {
516 fDmem[iAddr] = new UInt_t[fgkDmemSizeSmIndividual];
517 fDmemDepth[iAddr] = fgkDmemSizeSmIndividual;
518 }
519
520 else if(iAddr == fgkDmemAddrLUTnbins-fgkDmemStartAddress) {
521 fDmem[iAddr] = new UInt_t; // same value for all MCMs
522 fDmemDepth[iAddr] = fgkDmemSizeUniform;
523 }
524
525 else if(iAddr == fgkDmemAddrLUTLength-fgkDmemStartAddress) {
526 fDmem[iAddr] = new UInt_t; // same value for all MCMs
527 fDmemDepth[iAddr] = fgkDmemSizeUniform;
528 }
529
530 else {
531 fDmem[iAddr] = NULL;
532 fDmemDepth[iAddr] = fgkDmemSizeEmpty;
533 }
534
051af255 535 }
536
ce4786b9 537 InitRegs();
8ea391e3 538 ResetDmem();
ce4786b9 539}
540
541
542AliTRDtrapConfig* AliTRDtrapConfig::Instance()
543{
544 // return a pointer to an instance of this class
545
546 if (!fgInstance) {
547 fgInstance = new AliTRDtrapConfig();
5e86ff99 548 AliTRDtrapConfigHandler cfgHandler;
549 cfgHandler.LoadConfig();
ce4786b9 550 }
551
552 return fgInstance;
553}
554
555
051af255 556AliTRDtrapConfig::~AliTRDtrapConfig()
557{
8ea391e3 558 for(Int_t iAddr = 0; iAddr < fgkDmemWords; iAddr++) {
559 if(iAddr == fgkDmemAddrDeflCorr - fgkDmemStartAddress)
560 delete [] fDmem[iAddr];
561
562 else if(iAddr == fgkDmemAddrNdrift - fgkDmemStartAddress)
563 delete [] fDmem[iAddr];
564
565 else if(iAddr >= fgkDmemAddrDeflCutStart-fgkDmemStartAddress && iAddr <= fgkDmemAddrDeflCutEnd-fgkDmemStartAddress)
566 delete [] fDmem[iAddr];
567
568 else if(iAddr >= fgkDmemAddrTrackletStart-fgkDmemStartAddress && iAddr <= fgkDmemAddrTrackletEnd-fgkDmemStartAddress)
569 delete [] fDmem[iAddr];
570
571 else if(iAddr >= fgkDmemAddrLUTStart-fgkDmemStartAddress && iAddr <= fgkDmemAddrLUTEnd-fgkDmemStartAddress)
572 delete fDmem[iAddr];
573
574 else if(iAddr == fgkDmemAddrLUTcor0-fgkDmemStartAddress)
575 delete [] fDmem[iAddr];
576
577 else if(iAddr == fgkDmemAddrLUTcor1-fgkDmemStartAddress)
578 delete [] fDmem[iAddr];
579
580 else if(iAddr == fgkDmemAddrLUTnbins-fgkDmemStartAddress)
581 delete fDmem[iAddr];
582
583 else if(iAddr == fgkDmemAddrLUTLength-fgkDmemStartAddress)
584 delete fDmem[iAddr];
051af255 585 }
586}
587
588
8ea391e3 589void AliTRDtrapConfig::InitRegs()
ce4786b9 590{
591 // Reset the content of all TRAP registers to the reset values (see TRAP User Manual)
592
593 for (Int_t iReg = 0; iReg < kLastReg; iReg++) {
594
595 fRegisterValue[iReg].individualValue = 0x0;
596
597 fRegisterValue[iReg].globalValue = GetRegResetValue((TrapReg_t) iReg);
598 fRegisterValue[iReg].state = RegValue_t::kGlobal;
599 }
600}
601
602
8ea391e3 603void AliTRDtrapConfig::ResetRegs()
ce4786b9 604{
605 // Reset the content of all TRAP registers to the reset values (see TRAP User Manual)
606
607 for (Int_t iReg = 0; iReg < kLastReg; iReg++) {
608 if(fRegisterValue[iReg].state == RegValue_t::kIndividual) {
609 if (fRegisterValue[iReg].individualValue) {
610 delete [] fRegisterValue[iReg].individualValue;
611 fRegisterValue[iReg].individualValue = 0x0;
612 }
613 }
614
615 fRegisterValue[iReg].globalValue = GetRegResetValue((TrapReg_t) iReg);
616 fRegisterValue[iReg].state = RegValue_t::kGlobal;
617 // printf("%-8s: 0x%08x\n", GetRegName((TrapReg_t) iReg), fRegisterValue[iReg].globalValue);
618 }
619}
620
621
8ea391e3 622void AliTRDtrapConfig::ResetDmem()
623{
624 for(Int_t iAddr = 0; iAddr < fgkDmemWords; iAddr++) {
625 if(fDmemDepth[iAddr] == 0)
626 continue;
627 for(Int_t j=0; j < fDmemDepth[iAddr]; j++) {
628 fDmem[iAddr][j]=0;
629 }
630 }
631}
632
633
634Int_t AliTRDtrapConfig::GetTrapReg(TrapReg_t reg, Int_t det, Int_t rob, Int_t mcm) const
ce4786b9 635{
636 // get the value of an individual TRAP register
637 // if it is individual for TRAPs a valid TRAP has to be specified
638
639 if ((reg < 0) || (reg >= kLastReg)) {
640 AliError("Non-existing register requested");
54d34aac 641 return 0;
ce4786b9 642 }
643 else {
644 if (fRegisterValue[reg].state == RegValue_t::kGlobal) {
645 return fRegisterValue[reg].globalValue;
646 }
647 else if (fRegisterValue[reg].state == RegValue_t::kIndividual) {
648 if((det >= 0 && det < AliTRDgeometry::Ndet()) &&
649 (rob >= 0 && rob < AliTRDfeeParam::GetNrobC1()) &&
650 (mcm >= 0 && mcm < fgkMaxMcm)) {
651 return fRegisterValue[reg].individualValue[det*AliTRDfeeParam::GetNrobC1()*fgkMaxMcm + rob*fgkMaxMcm + mcm];
652 }
653 else {
654 AliError("Invalid MCM specified or register is individual");
637666cd 655 return 0;
ce4786b9 656 }
657 }
658 else { // should never be reached
659 AliError("MCM register status neither kGlobal nor kIndividual");
637666cd 660 return 0;
ce4786b9 661 }
662 }
ce4786b9 663}
664
665
666Bool_t AliTRDtrapConfig::SetTrapReg(TrapReg_t reg, Int_t value)
667{
668 // set a global value for the given TRAP register,
669 // i.e. the same value for all TRAPs
670
671 if (fRegisterValue[reg].state == RegValue_t::kGlobal) {
672 fRegisterValue[reg].globalValue = value;
673 return kTRUE;
674 }
675 else {
51380642 676 AliError(Form("Register %s has individual values", AliTRDtrapConfig::GetRegName(reg)));
ce4786b9 677 }
678 return kFALSE;
679}
680
681
682Bool_t AliTRDtrapConfig::SetTrapReg(TrapReg_t reg, Int_t value, Int_t det)
683{
684 // set a global value for the given TRAP register,
685 // i.e. the same value for all TRAPs
686
687 if (fRegisterValue[reg].state == RegValue_t::kGlobal) {
688 fRegisterValue[reg].globalValue = value;
689 return kTRUE;
690 }
691 else if (fRegisterValue[reg].state == RegValue_t::kIndividual) {
692 // if the register is in idividual mode but a broadcast is requested, the selected register is
693 // set to value for all MCMs on the chamber
694
695 if( (det>=0 && det<AliTRDgeometry::Ndet())) {
696 for(Int_t rob=0; rob<AliTRDfeeParam::GetNrobC1(); rob++) {
697 for(Int_t mcm=0; mcm<fgkMaxMcm; mcm++)
698 fRegisterValue[reg].individualValue[det*AliTRDfeeParam::GetNrobC1()*fgkMaxMcm + rob*fgkMaxMcm + mcm] = value;
699 }
700 }
701 else {
8ea391e3 702 AliError(Form("Invalid detector number: %i\n", det));
ce4786b9 703 return kFALSE;
704 }
705 }
706 else { // should never be reached
707 AliError("MCM register status neither kGlobal nor kIndividual");
708 return kFALSE;
709 }
710
711 return kFALSE;
712}
713
714
715Bool_t AliTRDtrapConfig::SetTrapReg(TrapReg_t reg, Int_t value, Int_t det, Int_t rob, Int_t mcm)
716{
717 // set the value for the given TRAP register of an individual MCM
718
051af255 719 //std::cout << "-- reg: 0x" << std::hex << fRegs[reg].addr <<
720 //std::dec << ", data " << value << ", det " << det << ", rob " << rob << ", mcm " << mcm << std::endl;
ce4786b9 721
722 if( (det >= 0 && det < AliTRDgeometry::Ndet()) &&
723 (rob >= 0 && rob < AliTRDfeeParam::GetNrobC1()) &&
724 (mcm >= 0 && mcm < fgkMaxMcm) ) {
725 if (fRegisterValue[reg].state == RegValue_t::kGlobal) {
726 Int_t defaultValue = fRegisterValue[reg].globalValue;
727
728 fRegisterValue[reg].state = RegValue_t::kIndividual;
729 fRegisterValue[reg].individualValue = new Int_t[AliTRDgeometry::Ndet()*AliTRDfeeParam::GetNrobC1()*fgkMaxMcm];
730
731 for(Int_t i = 0; i < AliTRDgeometry::Ndet()*AliTRDfeeParam::GetNrobC1()*fgkMaxMcm; i++)
732 fRegisterValue[reg].individualValue[i] = defaultValue; // set the requested register of all MCMs to the value previously stored
733
734 fRegisterValue[reg].individualValue[det*AliTRDfeeParam::GetNrobC1()*fgkMaxMcm + rob*fgkMaxMcm + mcm] = value;
735 }
736 else if (fRegisterValue[reg].state == RegValue_t::kIndividual) {
737 fRegisterValue[reg].individualValue[det*AliTRDfeeParam::GetNrobC1()*fgkMaxMcm + rob*fgkMaxMcm + mcm] = value;
738 }
739 else { // should never be reached
740 AliError("MCM register status neither kGlobal nor kIndividual");
741 return kFALSE;
742 }
743 }
744 else {
8ea391e3 745 AliError(Form("Invalid value for det, ROB or MCM selected: %i, %i, %i", det, rob, mcm));
ce4786b9 746 return kFALSE;
747 }
748
749 return kTRUE;
750}
751
752
8ea391e3 753UInt_t AliTRDtrapConfig::Peek(Int_t addr, Int_t det, Int_t rob, Int_t mcm) const
ce4786b9 754{
755 // reading from given address
ce4786b9 756
757 if ( (addr >= fgkDmemStartAddress) &&
758 (addr < (fgkDmemStartAddress + fgkDmemWords)) ) {
8ea391e3 759 return GetDmemUnsigned(addr, det, rob, mcm);
ce4786b9 760 }
761 else {
762 TrapReg_t mcmReg = GetRegByAddress(addr);
763 if ( mcmReg >= 0 && mcmReg < kLastReg) {
8ea391e3 764 return (UInt_t) GetTrapReg(mcmReg, det, rob, mcm);
ce4786b9 765 }
766 }
767
b17aded9 768 return 0;
ce4786b9 769}
770
771
8ea391e3 772Bool_t AliTRDtrapConfig::Poke(Int_t addr, UInt_t value, Int_t det, Int_t rob, Int_t mcm)
ce4786b9 773{
774 // writing to given address
ce4786b9 775
776 if ( (addr >= fgkDmemStartAddress) &&
777 (addr < (fgkDmemStartAddress + fgkDmemWords)) ) {
051af255 778 AliDebug(2, Form("DMEM 0x%08x : %i", addr, value));
779 SetDmem(addr, value, det, rob, mcm);
ce4786b9 780 return kTRUE;
781 }
782 else {
783 TrapReg_t mcmReg = GetRegByAddress(addr);
784 if ( mcmReg >= 0 && mcmReg < kLastReg) {
051af255 785 AliDebug(2, Form("Register: %s : %i\n", GetRegName(mcmReg), value));
8ea391e3 786 SetTrapReg(mcmReg, (UInt_t) value, det, rob, mcm);
ce4786b9 787 return kTRUE;
788 }
789 }
051af255 790
ce4786b9 791 return kFALSE;
792}
793
794
051af255 795Bool_t AliTRDtrapConfig::SetDmem(Int_t addr, UInt_t value)
ce4786b9 796{
59f78ad5 797 // Set the content of the given DMEM address
798
8ea391e3 799 addr = addr - fgkDmemStartAddress;
ce4786b9 800
8ea391e3 801 if(addr < 0 || addr >= fgkDmemWords) {
5ac2e3b1 802 AliError(Form("No DMEM address: 0x%08x", addr+fgkDmemStartAddress));
8ea391e3 803 return kFALSE;
804 }
805
806 switch(fDmemDepth[addr]) {
807 case fgkDmemSizeEmpty:
5ac2e3b1 808 AliDebug(4, Form("DMEM address %i not active", addr));
8ea391e3 809 return kFALSE;
810 break;
811 case fgkDmemSizeUniform:
812 if(fDmem[addr][0]!=0)
813 AliDebug(5, Form("Warning: Setting new value to DMEM 0x%08x", addr+fgkDmemStartAddress));
814
815 fDmem[addr][0] = value;
816 break;
817 case fgkDmemSizeSmIndividual:
818 for(Int_t i=0; i<fgkDmemSizeSmIndividual; i++) {
819 if(fDmem[addr][i]!=0)
820 AliDebug(5, Form("Warning: Setting new value to DMEM 0x%08x", addr+fgkDmemStartAddress));
821
822 fDmem[addr][i]=value;
051af255 823 }
8ea391e3 824 break;
825 case fgkDmemSizeTotalIndividual:
826 for(Int_t i=0; i<fgkDmemSizeTotalIndividual; i++) {
827 if(fDmem[addr][i]!=0)
828 AliDebug(5, Form("Warning: Setting new value to DMEM 0x%08x", addr+fgkDmemStartAddress));
829
830 fDmem[addr][i]=value;
051af255 831 }
8ea391e3 832 break;
833 case fgkDmemSizeSmRocIndividual:
834 for(Int_t i=0; i<fgkDmemSizeSmRocIndividual; i++) {
835 if(fDmem[addr][i]!=0)
836 AliDebug(5, Form("Warning: Setting new value to DMEM 0x%08x", addr+fgkDmemStartAddress));
837
838 fDmem[addr][i]=value;
ce4786b9 839 }
8ea391e3 840 break;
841 default:
842 AliError(Form("Invalid selection type"));
843 break;
844 }
051af255 845
8ea391e3 846 return kTRUE;
ce4786b9 847}
848
849
8ea391e3 850Bool_t AliTRDtrapConfig::SetDmem(Int_t addr, UInt_t value, Int_t det, Int_t rob, Int_t mcm)
ce4786b9 851{
59f78ad5 852 // Set the content of the given DMEM address
853
8ea391e3 854 addr = addr - fgkDmemStartAddress;
855 Int_t roc = det%30;
856 Int_t loc;
857
858 if(addr < 0 || addr >= fgkDmemWords) {
859 AliError(Form("No DMEM address: 0x%08x", addr+fgkDmemStartAddress));
860 return kFALSE;
861 }
862
863 Int_t detFactor=8*16;
864 Int_t robFactor=16;
051af255 865
8ea391e3 866 switch(fDmemDepth[addr]) {
867 case fgkDmemSizeEmpty:
5ac2e3b1 868 AliDebug(4, Form("DMEM address 0x%08x not active", addr+fgkDmemStartAddress));
8ea391e3 869 return kFALSE;
870 break;
871 case fgkDmemSizeUniform:
872 if(fDmem[addr][0]!=0)
873 AliDebug(5, Form("Warning: Setting new value to DMEM 0x%08x", addr+fgkDmemStartAddress));
874
875 fDmem[addr][0] = value;
876 break;
877 case fgkDmemSizeSmIndividual:
878 loc = detFactor*roc + robFactor*rob + mcm;
879 if(loc < fgkDmemSizeSmIndividual) {
880 if(fDmem[addr][loc]!=0)
881 AliDebug(5, Form("Warning: Setting new value to DMEM 0x%08x", addr+fgkDmemStartAddress));
882
883 fDmem[addr][loc] = value;
051af255 884 }
8ea391e3 885 else {
886 AliError(Form("DMEM sub-address %i out of scope", loc));
887 return kFALSE;
051af255 888 }
8ea391e3 889 break;
890 case fgkDmemSizeTotalIndividual:
891 loc = detFactor*det + robFactor*rob + mcm;
892 if(loc < fgkDmemSizeTotalIndividual) {
893 if(fDmem[addr][loc]!=0)
894 AliDebug(5, Form("Warning: Setting new value to DMEM 0x%08x", addr+fgkDmemStartAddress));
895
896 fDmem[addr][loc]=value;
051af255 897 }
8ea391e3 898 else {
899 AliError(Form("DMEM sub-address %i out of scope", loc));
900 return kFALSE;
901 }
902 break;
903 case fgkDmemSizeSmRocIndividual:
904 if(det < fgkDmemSizeSmRocIndividual) {
905 if(fDmem[addr][det]!=0)
906 AliDebug(5, Form("Warning: Setting new value to DMEM 0x%08x", addr+fgkDmemStartAddress));
051af255 907
8ea391e3 908 fDmem[addr][det]=value;
909 }
910 else {
911 AliError(Form("DMEM sub-address %i out of scope", det));
912 return kFALSE;
913 }
914
915 break;
916 default:
917 AliError(Form("Invalid selection type"));
918 return kFALSE;
919 break;
920 }
921
922 return kTRUE;
ce4786b9 923}
924
925
8ea391e3 926UInt_t AliTRDtrapConfig::GetDmemUnsigned(Int_t addr) const
ce4786b9 927{
8ea391e3 928 addr = addr - fgkDmemStartAddress;
5ac2e3b1 929 if(addr < 0 || addr >= fgkDmemWords) {
8ea391e3 930 AliError(Form("No DMEM address: 0x%08x", addr+fgkDmemStartAddress));
931 return 0;
932 }
051af255 933
8ea391e3 934 if(fDmemDepth[addr] == fgkDmemSizeUniform)
935 return fDmem[addr][0];
936 else {
937 AliError(Form("No global DMEM value at 0x%08x", addr+fgkDmemStartAddress));
938 return 0;
939 }
940 return 0;
ce4786b9 941}
942
8ea391e3 943UInt_t AliTRDtrapConfig::GetDmemUnsigned(Int_t addr, Int_t det, Int_t rob, Int_t mcm) const
ce4786b9 944{
8ea391e3 945 addr = addr - fgkDmemStartAddress;
946 Int_t roc = det%30;
947 Int_t loc;
948
949 if(addr < 0 || addr >= fgkDmemWords) {
950 AliError(Form("No DMEM address: 0x%08x", addr+fgkDmemStartAddress));
951 return 0;
952 }
59f78ad5 953
8ea391e3 954 Int_t detFactor=8*16;
955 Int_t robFactor=16;
956
957 switch(fDmemDepth[addr]) {
958 case fgkDmemSizeEmpty:
5ac2e3b1 959 AliDebug(4, Form("DMEM address 0x%08x not active", addr+fgkDmemStartAddress));
8ea391e3 960 return 0;
961 break;
962 case fgkDmemSizeUniform:
963 return fDmem[addr][0];
964 break;
965 case fgkDmemSizeSmIndividual:
966 loc = detFactor*roc + robFactor*rob + mcm;
967 if(loc < fgkDmemSizeSmIndividual) {
968 return fDmem[addr][loc];
969 }
970 else {
971 AliError(Form("DMEM sub-address %i out of scope", loc));
972 return 0;
973 }
974 break;
975 case fgkDmemSizeTotalIndividual:
976 loc = detFactor*det + robFactor*rob + mcm;
977 if(loc < fgkDmemSizeTotalIndividual) {
978 return fDmem[addr][loc];
979 }
980 else {
981 AliError(Form("DMEM sub-address %i out of scope", loc));
982 return 0;
983 }
984 break;
985 case fgkDmemSizeSmRocIndividual:
986 if(det < fgkDmemSizeSmRocIndividual) {
987 return fDmem[addr][det];
988 }
989 else {
990 AliError(Form("DMEM sub-address %i out of scope", det));
991 return 0;
992 }
993 break;
994 default:
995 AliError(Form("Invalid selection type"));
996 return 0;
997 break;
998 }
999
1000 return 0;
ce4786b9 1001}
1002
1003
051af255 1004Bool_t AliTRDtrapConfig::ReadPackedConfig(Int_t hc, UInt_t *data, Int_t size)
ce4786b9 1005{
59f78ad5 1006 // Read the packed configuration from the passed memory block
1007 //
1008 // To be used to retrieve the TRAP configuration from the
1009 // configuration as sent in the raw data.
1010
051af255 1011 AliDebug(1, "Reading packed configuration");
1012
1013 Int_t det = hc/2;
1014
ce4786b9 1015 Int_t idx = 0;
1016 Int_t err = 0;
59f78ad5 1017 Int_t step, bwidth, nwords, exitFlag, bitcnt;
ce4786b9 1018
1019 UShort_t caddr;
59f78ad5 1020 UInt_t dat, msk, header, dataHi;
ce4786b9 1021
051af255 1022 while (idx < size && *data != 0x00000000) {
ce4786b9 1023
051af255 1024 Int_t rob = (*data >> 28) & 0x7;
1025 Int_t mcm = (*data >> 24) & 0xf;
1026
1027 AliDebug(1, Form("Config of det. %3i MCM %i:%02i (0x%08x)", det, rob, mcm, *data));
ce4786b9 1028 data++;
ce4786b9 1029
051af255 1030 while (idx < size && *data != 0x00000000) {
ce4786b9 1031
051af255 1032 header = *data;
1033 data++;
1034 idx++;
ce4786b9 1035
051af255 1036 AliDebug(5, Form("read: 0x%08x", header));
ce4786b9 1037
8ea391e3 1038 if (header & 0x01) // single data
051af255 1039 {
8ea391e3 1040 dat = (header >> 2) & 0xFFFF; // 16 bit data
1041 caddr = (header >> 18) & 0x3FFF; // 14 bit address
051af255 1042
8ea391e3 1043 if (caddr != 0x1FFF) // temp!!! because the end marker was wrong
051af255 1044 {
8ea391e3 1045 if (header & 0x02) // check if > 16 bits
051af255 1046 {
1047 dataHi = *data;
1048 AliDebug(5, Form("read: 0x%08x", dataHi));
1049 data++;
1050 idx++;
1051 err += ((dataHi ^ (dat | 1)) & 0xFFFF) != 0;
1052 dat = (dataHi & 0xFFFF0000) | dat;
1053 }
1054 AliDebug(5, Form("addr=0x%04x (%s) data=0x%08x\n", caddr, GetRegName(GetRegByAddress(caddr)), dat));
1055 if ( ! Poke(caddr, dat, det, rob, mcm) )
1056 AliDebug(5, Form("(single-write): non-existing address 0x%04x containing 0x%08x\n", caddr, header));
1057 if (idx > size)
1058 {
1059 AliDebug(5, Form("(single-write): no more data, missing end marker\n"));
1060 return -err;
1061 }
1062 }
1063 else
1064 {
1065 AliDebug(5, Form("(single-write): address 0x%04x => old endmarker?\n", caddr));
1066 return err;
1067 }
1068 }
1069
8ea391e3 1070 else // block of data
051af255 1071 {
1072 step = (header >> 1) & 0x0003;
1073 bwidth = ((header >> 3) & 0x001F) + 1;
1074 nwords = (header >> 8) & 0x00FF;
1075 caddr = (header >> 16) & 0xFFFF;
1076 exitFlag = (step == 0) || (step == 3) || (nwords == 0);
1077
1078 if (exitFlag)
1079 break;
1080
1081 switch (bwidth)
1082 {
1083 case 15:
1084 case 10:
1085 case 7:
1086 case 6:
1087 case 5:
1088 {
1089 msk = (1 << bwidth) - 1;
1090 bitcnt = 0;
1091 while (nwords > 0)
1092 {
1093 nwords--;
1094 bitcnt -= bwidth;
1095 if (bitcnt < 0)
1096 {
1097 header = *data;
1098 AliDebug(5, Form("read 0x%08x", header));
1099 data++;
1100 idx++;
1101 err += (header & 1);
1102 header = header >> 1;
1103 bitcnt = 31 - bwidth;
1104 }
1105 AliDebug(5, Form("addr=0x%04x (%s) data=0x%08x\n", caddr, GetRegName(GetRegByAddress(caddr)), header & msk));
1106 if ( ! Poke(caddr, header & msk, det, rob, mcm) )
1107 AliDebug(5, Form("(single-write): non-existing address 0x%04x containing 0x%08x\n", caddr, header));
1108
1109 caddr += step;
1110 header = header >> bwidth;
1111 if (idx >= size)
1112 {
1113 AliDebug(5, Form("(block-write): no end marker! %d words read\n", idx));
1114 return -err;
1115 }
1116 }
1117 break;
1118 } // end case 5-15
1119 case 31:
1120 {
1121 while (nwords > 0)
1122 {
1123 header = *data;
1124 AliDebug(5, Form("read 0x%08x", header));
1125 data++;
1126 idx++;
1127 nwords--;
1128 err += (header & 1);
1129
1130 AliDebug(5, Form("addr=0x%04x (%s) data=0x%08x", caddr, GetRegName(GetRegByAddress(caddr)), header >> 1));
1131 if ( ! Poke(caddr, header >> 1, det, rob, mcm) )
1132 AliDebug(5, Form("(single-write): non-existing address 0x%04x containing 0x%08x\n", caddr, header));
1133
1134 caddr += step;
1135 if (idx >= size)
1136 {
1137 AliDebug(5, Form("no end marker! %d words read", idx));
1138 return -err;
1139 }
1140 }
1141 break;
1142 }
1143 default: return err;
8ea391e3 1144 } // end switch
1145 } // end block case
051af255 1146 }
8ea391e3 1147 } // end while
ce4786b9 1148 AliDebug(5, Form("no end marker! %d words read", idx));
1149 return -err; // only if the max length of the block reached!
1150}
1151
1152
8ea391e3 1153Bool_t AliTRDtrapConfig::PrintTrapReg(TrapReg_t reg, Int_t det, Int_t rob, Int_t mcm) const
ce4786b9 1154{
1155 // print the value stored in the given register
1156 // if it is individual a valid MCM has to be specified
1157
1158 if (fRegisterValue[reg].state == RegValue_t::kGlobal) {
1159 printf("%s (%i bits) at 0x%08x is 0x%08x and resets to: 0x%08x (currently global mode)\n",
1160 GetRegName((TrapReg_t) reg),
1161 GetRegNBits((TrapReg_t) reg),
1162 GetRegAddress((TrapReg_t) reg),
1163 fRegisterValue[reg].globalValue,
1164 GetRegResetValue((TrapReg_t) reg));
1165 }
1166 else if (fRegisterValue[reg].state == RegValue_t::kIndividual) {
1167 if((det >= 0 && det < AliTRDgeometry::Ndet()) &&
1168 (rob >= 0 && rob < AliTRDfeeParam::GetNrobC1()) &&
1169 (mcm >= 0 && mcm < fgkMaxMcm)) {
1170 printf("%s (%i bits) at 0x%08x is 0x%08x and resets to: 0x%08x (currently individual mode)\n",
1171 GetRegName((TrapReg_t) reg),
1172 GetRegNBits((TrapReg_t) reg),
1173 GetRegAddress((TrapReg_t) reg),
1174 fRegisterValue[reg].individualValue[det*AliTRDfeeParam::GetNrobC1()*fgkMaxMcm + rob*fgkMaxMcm + mcm],
1175 GetRegResetValue((TrapReg_t) reg));
1176 }
1177 else {
1178 AliError("Register value is MCM-specific: Invalid detector, ROB or MCM requested");
1179 return kFALSE;
1180 }
1181 }
1182 else { // should never be reached
1183 AliError("MCM register status neither kGlobal nor kIndividual");
1184 return kFALSE;
1185 }
1186 return kTRUE;
1187}
1188
1189
8ea391e3 1190Bool_t AliTRDtrapConfig::PrintTrapAddr(Int_t addr, Int_t det, Int_t rob, Int_t mcm) const
ce4786b9 1191{
1192 // print the value stored at the given address in the MCM chip
1193 TrapReg_t reg = GetRegByAddress(addr);
1194 if (reg >= 0 && reg < kLastReg) {
1195 return PrintTrapReg(reg, det, rob, mcm);
1196 }
1197 else {
1198 AliError(Form("There is no register at address 0x%08x in the simulator", addr));
1199 return kFALSE;
1200 }
1201}
1202
1203
1204Bool_t AliTRDtrapConfig::AddValues(UInt_t det, UInt_t cmd, UInt_t extali, Int_t addr, UInt_t data)
1205{
1206 // transfer the informations provided by LoadConfig to the internal class variables
1207
1208 if(cmd != fgkScsnCmdWrite) {
1209 AliError(Form("Invalid command received: %i", cmd));
1210 return kFALSE;
1211 }
1212
1213 TrapReg_t mcmReg = GetRegByAddress(addr);
1214 Int_t rocType = AliTRDgeometry::GetStack(det) == 2 ? 0 : 1;
1215
8ea391e3 1216 static const int mcmListSize=40; // 40 is more or less arbitrary
1217 Int_t mcmList[mcmListSize];
1218
ce4786b9 1219 // configuration registers
1220 if(mcmReg >= 0 && mcmReg < kLastReg) {
1221
1222 for(Int_t linkPair=0; linkPair<fgkMaxLinkPairs; linkPair++) {
8ea391e3 1223 if(AliTRDfeeParam::ExtAliToAli(extali, linkPair, rocType, mcmList, mcmListSize)!=0) {
1224 Int_t i=0;
1225 while(mcmList[i] != -1 && i<mcmListSize) {
1226 if(mcmList[i]==127)
ce4786b9 1227 SetTrapReg( (TrapReg_t) mcmReg, data, det);
1228 else
8ea391e3 1229 SetTrapReg( (TrapReg_t) mcmReg, data, det, (mcmList[i]>>7), (mcmList[i]&0x7F));
ce4786b9 1230 i++;
1231 }
1232 }
1233 }
1234 return kTRUE;
1235 }
1236 // DMEM
1237 else if ( (addr >= fgkDmemStartAddress) &&
1238 (addr < (fgkDmemStartAddress + fgkDmemWords))) {
1239 for(Int_t linkPair=0; linkPair<fgkMaxLinkPairs; linkPair++) {
8ea391e3 1240 if(AliTRDfeeParam::ExtAliToAli(extali, linkPair, rocType, mcmList, mcmListSize)!=0) {
ce4786b9 1241 Int_t i=0;
8ea391e3 1242 while(mcmList[i] != -1 && i < mcmListSize) {
1243 if(mcmList[i] == 127)
1244 SetDmem(addr, data, det, 0, 127);
ce4786b9 1245 else
8ea391e3 1246 SetDmem(addr, data, det, mcmList[i] >> 7, mcmList[i] & 0x7f);
ce4786b9 1247 i++;
1248 }
1249 }
1250 }
1251 return kTRUE;
1252 }
1253 else
1254 return kFALSE;
1255}
1256
1257
8ea391e3 1258AliTRDtrapConfig::TrapReg_t AliTRDtrapConfig::GetRegByAddress(Int_t address) const
ce4786b9 1259{
8ea391e3 1260 // get register by its address
1261 // used for reading of configuration data as sent to real FEE
ce4786b9 1262
8ea391e3 1263 TrapReg_t mcmReg = kLastReg;
1264 Int_t reg = 0;
1265 do {
1266 if(fRegs[reg].fAddr == address)
1267 mcmReg = (TrapReg_t) reg;
1268 reg++;
1269 } while (mcmReg == kLastReg && reg < kLastReg);
ce4786b9 1270
8ea391e3 1271 return mcmReg;
ce4786b9 1272}
1273
1274
8ea391e3 1275void AliTRDtrapConfig::PrintMemDatx(ostream &os, Int_t addr) const
ce4786b9 1276{
8ea391e3 1277 PrintMemDatx(os, addr, 0, 0, 127);
ce4786b9 1278}
1279
8ea391e3 1280void AliTRDtrapConfig::PrintMemDatx(ostream &os, Int_t addr, Int_t det, Int_t rob, Int_t mcm) const
ce4786b9 1281{
8ea391e3 1282 if(addr < fgkDmemStartAddress || addr >= fgkDmemStartAddress+fgkDmemWords) {
1283 AliError(Form("Invalid DMEM address 0x%08x!", addr));
1284 return;
1285 }
1286 PrintDatx(os, addr, GetDmemUnsigned(addr, det, rob, mcm), rob, mcm);
1287}
1288
ce4786b9 1289
8ea391e3 1290void AliTRDtrapConfig::PrintMemDatx(ostream &os, TrapReg_t reg) const
1291{
1292 PrintMemDatx(os, reg, 0, 0, 127);
ce4786b9 1293}
1294
1295
8ea391e3 1296void AliTRDtrapConfig::PrintMemDatx(ostream &os, TrapReg_t reg, Int_t det, Int_t rob, Int_t mcm) const
ce4786b9 1297{
8ea391e3 1298 if(reg>= kLastReg) {
1299 AliError(Form("Invalid register %i!", reg));
1300 return;
1301 }
1302 PrintDatx(os, GetRegAddress(reg), GetTrapReg(reg, det, rob, mcm), rob, mcm);
1303}
36dc3337 1304
ce4786b9 1305
8ea391e3 1306void AliTRDtrapConfig::PrintDatx(ostream &os, UInt_t addr, UInt_t data, Int_t rob, Int_t mcm) const
1307{
1308 os << std::setw(5) << 10
1309 << std::setw(8) << addr
1310 << std::setw(12) << data;
1311 if(mcm==127)
1312 os << std::setw(8) << 127;
1313 else
1314 os << std::setw(8) << AliTRDfeeParam::AliToExtAli(rob, mcm);
1315
1316 os << std::endl;
ce4786b9 1317}