2 * SpanDSP - a series of DSP components for telephony
4 * fir.h - General telephony FIR routines
6 * Written by Steve Underwood <steveu@coppice.org>
8 * Copyright (C) 2002 Steve Underwood
10 * All rights reserved.
12 * This program is free software; you can redistribute it and/or modify
13 * it under the terms of the GNU General Public License version 2, as
14 * published by the Free Software Foundation.
16 * This program is distributed in the hope that it will be useful,
17 * but WITHOUT ANY WARRANTY; without even the implied warranty of
18 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
19 * GNU General Public License for more details.
21 * You should have received a copy of the GNU General Public License
22 * along with this program; if not, write to the Free Software
23 * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
25 * $Id: fir.h,v 1.8 2006/10/24 13:45:28 steveu Exp $
28 /*! \page fir_page FIR filtering
29 \section fir_page_sec_1 What does it do?
32 \section fir_page_sec_2 How does it work?
40 Blackfin NOTES & IDEAS:
42 A simple dot product function is used to implement the filter. This performs
43 just one MAC/cycle which is inefficient but was easy to implement as a first
44 pass. The current Blackfin code also uses an unrolled form of the filter
45 history to avoid 0 length hardware loop issues. This is wasteful of
48 Ideas for improvement:
50 1/ Rewrite filter for dual MAC inner loop. The issue here is handling
51 history sample offsets that are 16 bit aligned - the dual MAC needs
52 32 bit aligmnent. There are some good examples in libbfdsp.
54 2/ Use the hardware circular buffer facility tohalve memory usage.
56 3/ Consider using internal memory.
58 Using less memory might also improve speed as cache misses will be
59 reduced. A drop in MIPs and memory approaching 50% should be
62 The foreground and background filters currenlty use a total of
63 about 10 MIPs/ch as measured with speedtest.c on a 256 TAP echo
67 #if defined(USE_MMX) || defined(USE_SSE2)
72 16 bit integer FIR descriptor. This defines the working state for a single
73 instance of an FIR filter using 16 bit integer coefficients.
79 const int16_t *coeffs
;
84 32 bit integer FIR descriptor. This defines the working state for a single
85 instance of an FIR filter using 32 bit integer coefficients, and filtering
92 const int32_t *coeffs
;
97 Floating point FIR descriptor. This defines the working state for a single
98 instance of an FIR filter using floating point coefficients and data.
112 static __inline__
const int16_t *fir16_create(fir16_state_t
*fir
,
113 const int16_t *coeffs
,
117 fir
->curr_pos
= taps
- 1;
118 fir
->coeffs
= coeffs
;
119 #if defined(USE_MMX) || defined(USE_SSE2) || defined(__bfin__)
120 fir
->history
= kcalloc(2*taps
, sizeof(int16_t), GFP_KERNEL
);
122 fir
->history
= kcalloc(taps
, sizeof(int16_t), GFP_KERNEL
);
126 /*- End of function --------------------------------------------------------*/
128 static __inline__
void fir16_flush(fir16_state_t
*fir
)
130 #if defined(USE_MMX) || defined(USE_SSE2) || defined(__bfin__)
131 memset(fir
->history
, 0, 2*fir
->taps
*sizeof(int16_t));
133 memset(fir
->history
, 0, fir
->taps
*sizeof(int16_t));
136 /*- End of function --------------------------------------------------------*/
138 static __inline__
void fir16_free(fir16_state_t
*fir
)
142 /*- End of function --------------------------------------------------------*/
145 static inline int32_t dot_asm(short *x
, short *y
, int len
)
156 "R0.L = W[I0++] || R1.L = W[I1++];\n\t"
157 "LOOP dot%= LC0 = %3;\n\t"
158 "LOOP_BEGIN dot%=;\n\t"
159 "A0 += R0.L * R1.L (IS) || R0.L = W[I0++] || R1.L = W[I1++];\n\t"
160 "LOOP_END dot%=;\n\t"
161 "A0 += R0.L*R1.L (IS);\n\t"
165 : "a" (x
), "a" (y
), "a" (len
)
166 : "I0", "I1", "A1", "A0", "R0", "R1"
172 /*- End of function --------------------------------------------------------*/
174 static __inline__
int16_t fir16(fir16_state_t
*fir
, int16_t sample
)
182 fir
->history
[fir
->curr_pos
] = sample
;
183 fir
->history
[fir
->curr_pos
+ fir
->taps
] = sample
;
185 mmx_coeffs
= (mmx_t
*) fir
->coeffs
;
186 mmx_hist
= (mmx_t
*) &fir
->history
[fir
->curr_pos
];
189 /* 8 samples per iteration, so the filter must be a multiple of 8 long. */
192 movq_m2r(mmx_coeffs
[0], mm0
);
193 movq_m2r(mmx_coeffs
[1], mm2
);
194 movq_m2r(mmx_hist
[0], mm1
);
195 movq_m2r(mmx_hist
[1], mm3
);
198 pmaddwd_r2r(mm1
, mm0
);
199 pmaddwd_r2r(mm3
, mm2
);
209 #elif defined(USE_SSE2)
214 fir
->history
[fir
->curr_pos
] = sample
;
215 fir
->history
[fir
->curr_pos
+ fir
->taps
] = sample
;
217 xmm_coeffs
= (xmm_t
*) fir
->coeffs
;
218 xmm_hist
= (xmm_t
*) &fir
->history
[fir
->curr_pos
];
220 pxor_r2r(xmm4
, xmm4
);
221 /* 16 samples per iteration, so the filter must be a multiple of 16 long. */
224 movdqu_m2r(xmm_coeffs
[0], xmm0
);
225 movdqu_m2r(xmm_coeffs
[1], xmm2
);
226 movdqu_m2r(xmm_hist
[0], xmm1
);
227 movdqu_m2r(xmm_hist
[1], xmm3
);
230 pmaddwd_r2r(xmm1
, xmm0
);
231 pmaddwd_r2r(xmm3
, xmm2
);
232 paddd_r2r(xmm0
, xmm4
);
233 paddd_r2r(xmm2
, xmm4
);
236 movdqa_r2r(xmm4
, xmm0
);
238 paddd_r2r(xmm0
, xmm4
);
239 movdqa_r2r(xmm4
, xmm0
);
241 paddd_r2r(xmm0
, xmm4
);
243 #elif defined(__bfin__)
244 fir
->history
[fir
->curr_pos
] = sample
;
245 fir
->history
[fir
->curr_pos
+ fir
->taps
] = sample
;
246 y
= dot_asm((int16_t*)fir
->coeffs
, &fir
->history
[fir
->curr_pos
], fir
->taps
);
252 fir
->history
[fir
->curr_pos
] = sample
;
254 offset2
= fir
->curr_pos
;
255 offset1
= fir
->taps
- offset2
;
257 for (i
= fir
->taps
- 1; i
>= offset1
; i
--)
258 y
+= fir
->coeffs
[i
]*fir
->history
[i
- offset1
];
260 y
+= fir
->coeffs
[i
]*fir
->history
[i
+ offset2
];
262 if (fir
->curr_pos
<= 0)
263 fir
->curr_pos
= fir
->taps
;
265 return (int16_t) (y
>> 15);
267 /*- End of function --------------------------------------------------------*/
269 static __inline__
const int16_t *fir32_create(fir32_state_t
*fir
,
270 const int32_t *coeffs
,
274 fir
->curr_pos
= taps
- 1;
275 fir
->coeffs
= coeffs
;
276 fir
->history
= kcalloc(taps
, sizeof(int16_t), GFP_KERNEL
);
279 /*- End of function --------------------------------------------------------*/
281 static __inline__
void fir32_flush(fir32_state_t
*fir
)
283 memset(fir
->history
, 0, fir
->taps
*sizeof(int16_t));
285 /*- End of function --------------------------------------------------------*/
287 static __inline__
void fir32_free(fir32_state_t
*fir
)
291 /*- End of function --------------------------------------------------------*/
293 static __inline__
int16_t fir32(fir32_state_t
*fir
, int16_t sample
)
300 fir
->history
[fir
->curr_pos
] = sample
;
301 offset2
= fir
->curr_pos
;
302 offset1
= fir
->taps
- offset2
;
304 for (i
= fir
->taps
- 1; i
>= offset1
; i
--)
305 y
+= fir
->coeffs
[i
]*fir
->history
[i
- offset1
];
307 y
+= fir
->coeffs
[i
]*fir
->history
[i
+ offset2
];
308 if (fir
->curr_pos
<= 0)
309 fir
->curr_pos
= fir
->taps
;
311 return (int16_t) (y
>> 15);
313 /*- End of function --------------------------------------------------------*/
320 /*- End of file ------------------------------------------------------------*/