Lines Matching refs:ii
105 int ii, quadrant = 0; in myAtan2() local
139 ii = zerosQ-1; in myAtan2()
143 ii += (16-zerosI); in myAtan2()
146 if(MPY_BIPT>ii) in myAtan2()
147 x<<=(MPY_BIPT-ii); in myAtan2()
149 x>>=(ii-MPY_BIPT); in myAtan2()
164 for(ii=0;ii<NUM_ATAN_IT;ii++){ in myAtan2()
241 int ii, digits, N; in mySqrt() local
251 for(ii=0;ii<N;ii++){ // res is scaled by 2^(N-1-ii) in mySqrt()
266 int ii; in processSubCarrier() local
295 for(ii=0;ii<numCsiScHlf;ii++){ in processSubCarrier()
441 int ii; in processSubCarrier20MHz() local
473 for(ii=0;ii<numCsiScHlf;ii++){ in processSubCarrier20MHz()
596 if(ii == jumpIdx){ in processSubCarrier20MHz()
626 int ii, jj, kk, bb; in readHexDataDemodulateProcessVhtHeNg1() local
798 for (ii = 0; ii<nTx; ii++) { in readHexDataDemodulateProcessVhtHeNg1()
800 dataPtrTmp = ((unsigned short*)dataPtr) + (ii + jj*nTx0); in readHexDataDemodulateProcessVhtHeNg1()
807 writePtr = (short*)(fftInBfr + ifftSizeOsf*(jj + ii*nRx) + bb * 256); in readHexDataDemodulateProcessVhtHeNg1()
810 writePtr = (short*)(fftInBfr + ifftSizeOsf*(jj + bb* nRx + ii*nRx*numBands)); in readHexDataDemodulateProcessVhtHeNg1()
847 writePtr = (short*)(fftInBfr + ifftSizeOsf*(jj + ii*nRx) + bb * 256 + scStart2); in readHexDataDemodulateProcessVhtHeNg1()
849 writePtr = (short*)(fftInBfr + ifftSizeOsf*(jj + bb* nRx + ii*nRx*numBands) + scStart2); in readHexDataDemodulateProcessVhtHeNg1()
878 phaseRollPtr[(jj + bb* nRx + ii*nRx*numBands)] = myAtan2(myStack[2], myStack[3]); in readHexDataDemodulateProcessVhtHeNg1()
883 phaseRollPtr[(jj + ii*nRx)] = myAtan2(myStack[2], myStack[3]); in readHexDataDemodulateProcessVhtHeNg1()
891 int ii, jj, qq; in detectPhaseJump() local
915 for (ii = 0;ii < nTx;ii++) { in detectPhaseJump()
917 readPtr = (fftInBfr + NUM_PARALLEL * ifftSizeOsf * (jj + ii * nRx)); in detectPhaseJump()
931 idx = (dcEdge*phaseRollPtr[qq + jj + ii*nRx] *MAX_FFT_SIZE) >> MPY_BIPT; // Ng=1 in detectPhaseJump()
976 int ii, jj; local
1083 for(ii=0;ii<nTx;ii++){
1085 dataPtrTmp = ((unsigned short*)dataPtr)+(ii+jj*nTx0);
1086 memset(fftInBfr+ifftSizeOsf*(jj+ii*nRx),0,4*ifftSizeOsf);
1087 writePtr = (short*)(fftInBfr+ifftSizeOsf*(jj+ii*nRx)+scStart);
1152 phaseRollPtr[(jj+ii*nRx)] = myAtan2(myStack[2], myStack[3]);
1162 int ii, jj, tt, qq; local
1176 for(ii=0;ii<nTx;ii++){
1181 tempVal += powerPerSubband[qq + tt*NUM_PARALLEL + (jj + ii*nRx)*numSubBlocks];
1183 totalpower[qq + jj + ii*nRx] = tempVal;
1192 int ii, jj; local
1196 for(ii=0;ii<nTx;ii++){
1200 …ndEdges20Intrinsic(pktinfo, fftInBuffer + bufferspacing*(jj + ii*nRx), phaseRollPtr + jj + ii*nRx);
1202 …andEdges20Parallel(pktinfo, fftInBuffer + bufferspacing*(jj + ii*nRx), phaseRollPtr + jj + ii*nRx);
1204 …interpolateBandEdges20(pktinfo, fftInBuffer + bufferspacing*(jj + ii*nRx), phaseRollPtr[jj + ii*nR…
1210 …BandEdgesIntrinsic(pktinfo, fftInBuffer + bufferspacing*(jj + ii*nRx), phaseRollPtr + jj + ii*nRx);
1212 …eBandEdgesParallel(pktinfo, fftInBuffer + bufferspacing*(jj + ii*nRx), phaseRollPtr + jj + ii*nRx);
1214 …interpolateBandEdges(pktinfo, fftInBuffer + bufferspacing*(jj + ii*nRx), phaseRollPtr[jj + ii*nRx]…
1219 …ndEdges40Intrinsic(pktinfo, fftInBuffer + bufferspacing*(jj + ii*nRx), phaseRollPtr + jj + ii*nRx);
1221 …andEdges40Parallel(pktinfo, fftInBuffer + bufferspacing*(jj + ii*nRx), phaseRollPtr + jj + ii*nRx);
1223 …erpolateBandEdges40(pktinfo, fftInBuffer + bufferspacing*(jj + ii*nRx), phaseRollPtr[jj + ii*nRx]);
1233 int ii, jj; local
1243 for (ii = 0;ii<nTx;ii++) {
1257 for (ii = 0;ii<nTx;ii++) {
1275 int ii, jj, kk, bb; local
1397 for (ii = 0; ii < nTx; ii++){
1401 totalpower[jj + ii*nRx] = powerScale*totalpower[jj + ii*nRx];
1403 phaseRollNg = (phaseRollPtr[jj + ii*nRx])>> NgShift;
1425 readPtr = fftInBuffer + bb*fftSize + bufferspacing*(jj + ii*nRx);
1840 int ii; local
1847 for(ii=1;ii<numSubbands;ii++){
1848 interpolatePairValue(readPtr+ii*subbandSize-1, readPtr+ii*subbandSize, phaseRollNg);
1948 int ii, qq, rx, tx, subBandPer, numSubBlocks, fftSize; local
1991 for (ii = 0;ii < subBlock;ii++) {
1992 …bottomHalfTemp += powerPerSubband[qq + (ii + offset*subBlock)*NUM_PARALLEL + (rx + tx*nRx)*numSubB…
1993 …topHalfTemp += powerPerSubband[qq + (ii + (offset + 1)*subBlock)*NUM_PARALLEL + (rx + tx*nRx)*numS…
2025 for (ii = 0;ii < numSubBlocks;ii++) {
2026 tempVal += powerPerSubband[qq + ii*NUM_PARALLEL + (rx + tx*nRx)*numSubBlocks];
2050 int ii, jj, kk; local
2060 for(ii=0;ii<nTx;ii++){
2062 writePtr = fftInBuffer+bufferspacing*(jj+ii*nRx);
2077 int ii, jj, kk; local
2093 for(ii=0;ii<nTx;ii++){
2095 writePtr = (short*)(fftInBfr+bufferspacing*(jj+ii*nRx)+pktinfo->scOffset);
2315 int ii, jj, pp, firstPathMin, maxIdx; local
2336 for(ii=0;ii<nTx;ii++){
2339 tempVal = totalpower[jj+ii*nRx];
2343 tdScaling[2*(jj+ii*nRx)] = (unsigned short)((ifftSizeOsf*ifftSizeOsf<<10)/tempVal); //(1<<31)
2344 tdScaling[2*(jj+ii*nRx)+1] = 0; // use 4 byte
2347 tdScaling[jj+ii*nRx] =1;
2352 for(ii=0;ii<nTx;ii++){
2356 …trinsic(currentValPtr, pdpOutBuffer, ifftSizeOsf, maxVals + jj + ii*nRx, maxIndeces + jj + ii*nRx);
2358 …arallel(currentValPtr, pdpOutBuffer, ifftSizeOsf, maxVals + jj + ii*nRx, maxIndeces + jj + ii*nRx);
2364 …firstPathRx[pp + jj + ii*nRx] = findFirstPath(pktinfo, pdpOutBuffer + pp, maxIndeces[pp + jj + ii*…
2372 for(ii=0;ii<nTx;ii++){
2374 if(firstPathRx[jj+ii*nRx]<firstPathMin){
2375 firstPathMin = firstPathRx[jj+ii*nRx];
2377 if(maxVals[jj+ii*nRx]>tempVal){
2378 tempVal = maxVals[jj+ii*nRx];
2379 maxIdx = jj+ii*nRx;
2392 int ii, jj, tt, maxIdx = -1; local
2418 for(ii=0;ii<nTx;ii++){
2421 tempVal = totalpower[jj+ii*nRx];
2425 tdScaling[2*(jj+ii*nRx)] = (unsigned short)((ifftSizeOsf*ifftSizeOsf<<10)/tempVal); //(1<<31)
2426 tdScaling[2*(jj+ii*nRx)+1] = 0; // use 4 byte
2429 tdScaling[jj+ii*nRx] =1;
2438 for(ii=0;ii<nTx;ii++){
2488 int ii, jj, pp, tt, maxIdx = -1; local
2510 for (ii = 0;ii<nTx;ii++) {
2513 tempVal = totalpower[jj + ii*nRx];
2518 …tdScaling[2 * (jj + ii*nRx)] = (unsigned short)((ifftSizeOsf*ifftSizeOsf << 8) / (tempVal>>2)); //…
2520 …tdScaling[2 * (jj + ii*nRx)] = (unsigned short)((ifftSizeOsf*ifftSizeOsf << 10) / tempVal ); //(1<…
2521 tdScaling[2 * (jj + ii*nRx) + 1] = 0; // use 4 byte
2524 tdScaling[jj + ii*nRx] = 1;
2533 for (ii = 0;ii<nTx;ii++) {
2616 int ii, firstLen, secondLen, mask; local
2652 for(ii=1;ii<firstLen;ii++){ // find first path
2655 yp1 = readPtr[stride*ii];
2659 firstPath =ii-1-negLen;
2668 for(ii=0;ii<secondLen;ii++){
2671 yp1 = readPtr[stride*ii];
2675 firstPath =ii-1;
2692 ii = __clz(tempVal);
2693 if(ii>TOA_FPATH_BIPT){
2698 tempVal<<=(ii-1);
2699 delta = tempVal / (denominator>>(TOA_FPATH_BIPT-ii+1));
2718 int ii, jj, offset; local
2730 for(ii=0;ii<nTx;ii++){
2732 tempVal = currentValPtr[(jj+ii*nRx)*ifftSizeOsf];
2733 destArray[jj+ii*nRx] = tempVal;