wilson_fused_exterior_dslash_fermi_core.h

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// *** CUDA DSLASH ***

#define DSLASH_SHARED_FLOATS_PER_THREAD 24


#ifdef MULTI_GPU

#if ((CUDA_VERSION >= 4010) && (__COMPUTE_CAPABILITY__ >= 200)) // NVVM compiler
#define VOLATILE
#else // Open64 compiler
#define VOLATILE volatile
#endif
// input spinor
#ifdef SPINOR_DOUBLE
#define spinorFloat double
#define WRITE_SPINOR_SHARED WRITE_SPINOR_SHARED_DOUBLE2
#define READ_SPINOR_SHARED READ_SPINOR_SHARED_DOUBLE2
#define i00_re I0.x
#define i00_im I0.y
#define i01_re I1.x
#define i01_im I1.y
#define i02_re I2.x
#define i02_im I2.y
#define i10_re I3.x
#define i10_im I3.y
#define i11_re I4.x
#define i11_im I4.y
#define i12_re I5.x
#define i12_im I5.y
#define i20_re I6.x
#define i20_im I6.y
#define i21_re I7.x
#define i21_im I7.y
#define i22_re I8.x
#define i22_im I8.y
#define i30_re I9.x
#define i30_im I9.y
#define i31_re I10.x
#define i31_im I10.y
#define i32_re I11.x
#define i32_im I11.y
#define acc00_re accum0.x
#define acc00_im accum0.y
#define acc01_re accum1.x
#define acc01_im accum1.y
#define acc02_re accum2.x
#define acc02_im accum2.y
#define acc10_re accum3.x
#define acc10_im accum3.y
#define acc11_re accum4.x
#define acc11_im accum4.y
#define acc12_re accum5.x
#define acc12_im accum5.y
#define acc20_re accum6.x
#define acc20_im accum6.y
#define acc21_re accum7.x
#define acc21_im accum7.y
#define acc22_re accum8.x
#define acc22_im accum8.y
#define acc30_re accum9.x
#define acc30_im accum9.y
#define acc31_re accum10.x
#define acc31_im accum10.y
#define acc32_re accum11.x
#define acc32_im accum11.y
#else
#define spinorFloat float
#define WRITE_SPINOR_SHARED WRITE_SPINOR_SHARED_FLOAT4
#define READ_SPINOR_SHARED READ_SPINOR_SHARED_FLOAT4
#define i00_re I0.x
#define i00_im I0.y
#define i01_re I0.z
#define i01_im I0.w
#define i02_re I1.x
#define i02_im I1.y
#define i10_re I1.z
#define i10_im I1.w
#define i11_re I2.x
#define i11_im I2.y
#define i12_re I2.z
#define i12_im I2.w
#define i20_re I3.x
#define i20_im I3.y
#define i21_re I3.z
#define i21_im I3.w
#define i22_re I4.x
#define i22_im I4.y
#define i30_re I4.z
#define i30_im I4.w
#define i31_re I5.x
#define i31_im I5.y
#define i32_re I5.z
#define i32_im I5.w
#define acc00_re accum0.x
#define acc00_im accum0.y
#define acc01_re accum0.z
#define acc01_im accum0.w
#define acc02_re accum1.x
#define acc02_im accum1.y
#define acc10_re accum1.z
#define acc10_im accum1.w
#define acc11_re accum2.x
#define acc11_im accum2.y
#define acc12_re accum2.z
#define acc12_im accum2.w
#define acc20_re accum3.x
#define acc20_im accum3.y
#define acc21_re accum3.z
#define acc21_im accum3.w
#define acc22_re accum4.x
#define acc22_im accum4.y
#define acc30_re accum4.z
#define acc30_im accum4.w
#define acc31_re accum5.x
#define acc31_im accum5.y
#define acc32_re accum5.z
#define acc32_im accum5.w
#endif // SPINOR_DOUBLE

// gauge link
#ifdef GAUGE_FLOAT2
#define g00_re G0.x
#define g00_im G0.y
#define g01_re G1.x
#define g01_im G1.y
#define g02_re G2.x
#define g02_im G2.y
#define g10_re G3.x
#define g10_im G3.y
#define g11_re G4.x
#define g11_im G4.y
#define g12_re G5.x
#define g12_im G5.y
#define g20_re G6.x
#define g20_im G6.y
#define g21_re G7.x
#define g21_im G7.y
#define g22_re G8.x
#define g22_im G8.y

#else
#define g00_re G0.x
#define g00_im G0.y
#define g01_re G0.z
#define g01_im G0.w
#define g02_re G1.x
#define g02_im G1.y
#define g10_re G1.z
#define g10_im G1.w
#define g11_re G2.x
#define g11_im G2.y
#define g12_re G2.z
#define g12_im G2.w
#define g20_re G3.x
#define g20_im G3.y
#define g21_re G3.z
#define g21_im G3.w
#define g22_re G4.x
#define g22_im G4.y

#endif // GAUGE_DOUBLE

// conjugated gauge link
#define gT00_re (+g00_re)
#define gT00_im (-g00_im)
#define gT01_re (+g10_re)
#define gT01_im (-g10_im)
#define gT02_re (+g20_re)
#define gT02_im (-g20_im)
#define gT10_re (+g01_re)
#define gT10_im (-g01_im)
#define gT11_re (+g11_re)
#define gT11_im (-g11_im)
#define gT12_re (+g21_re)
#define gT12_im (-g21_im)
#define gT20_re (+g02_re)
#define gT20_im (-g02_im)
#define gT21_re (+g12_re)
#define gT21_im (-g12_im)
#define gT22_re (+g22_re)
#define gT22_im (-g22_im)

// first chiral block of inverted clover term
#ifdef CLOVER_DOUBLE
#define c00_00_re C0.x
#define c01_01_re C0.y
#define c02_02_re C1.x
#define c10_10_re C1.y
#define c11_11_re C2.x
#define c12_12_re C2.y
#define c01_00_re C3.x
#define c01_00_im C3.y
#define c02_00_re C4.x
#define c02_00_im C4.y
#define c10_00_re C5.x
#define c10_00_im C5.y
#define c11_00_re C6.x
#define c11_00_im C6.y
#define c12_00_re C7.x
#define c12_00_im C7.y
#define c02_01_re C8.x
#define c02_01_im C8.y
#define c10_01_re C9.x
#define c10_01_im C9.y
#define c11_01_re C10.x
#define c11_01_im C10.y
#define c12_01_re C11.x
#define c12_01_im C11.y
#define c10_02_re C12.x
#define c10_02_im C12.y
#define c11_02_re C13.x
#define c11_02_im C13.y
#define c12_02_re C14.x
#define c12_02_im C14.y
#define c11_10_re C15.x
#define c11_10_im C15.y
#define c12_10_re C16.x
#define c12_10_im C16.y
#define c12_11_re C17.x
#define c12_11_im C17.y
#else
#define c00_00_re C0.x
#define c01_01_re C0.y
#define c02_02_re C0.z
#define c10_10_re C0.w
#define c11_11_re C1.x
#define c12_12_re C1.y
#define c01_00_re C1.z
#define c01_00_im C1.w
#define c02_00_re C2.x
#define c02_00_im C2.y
#define c10_00_re C2.z
#define c10_00_im C2.w
#define c11_00_re C3.x
#define c11_00_im C3.y
#define c12_00_re C3.z
#define c12_00_im C3.w
#define c02_01_re C4.x
#define c02_01_im C4.y
#define c10_01_re C4.z
#define c10_01_im C4.w
#define c11_01_re C5.x
#define c11_01_im C5.y
#define c12_01_re C5.z
#define c12_01_im C5.w
#define c10_02_re C6.x
#define c10_02_im C6.y
#define c11_02_re C6.z
#define c11_02_im C6.w
#define c12_02_re C7.x
#define c12_02_im C7.y
#define c11_10_re C7.z
#define c11_10_im C7.w
#define c12_10_re C8.x
#define c12_10_im C8.y
#define c12_11_re C8.z
#define c12_11_im C8.w
#endif // CLOVER_DOUBLE

#define c00_01_re (+c01_00_re)
#define c00_01_im (-c01_00_im)
#define c00_02_re (+c02_00_re)
#define c00_02_im (-c02_00_im)
#define c01_02_re (+c02_01_re)
#define c01_02_im (-c02_01_im)
#define c00_10_re (+c10_00_re)
#define c00_10_im (-c10_00_im)
#define c01_10_re (+c10_01_re)
#define c01_10_im (-c10_01_im)
#define c02_10_re (+c10_02_re)
#define c02_10_im (-c10_02_im)
#define c00_11_re (+c11_00_re)
#define c00_11_im (-c11_00_im)
#define c01_11_re (+c11_01_re)
#define c01_11_im (-c11_01_im)
#define c02_11_re (+c11_02_re)
#define c02_11_im (-c11_02_im)
#define c10_11_re (+c11_10_re)
#define c10_11_im (-c11_10_im)
#define c00_12_re (+c12_00_re)
#define c00_12_im (-c12_00_im)
#define c01_12_re (+c12_01_re)
#define c01_12_im (-c12_01_im)
#define c02_12_re (+c12_02_re)
#define c02_12_im (-c12_02_im)
#define c10_12_re (+c12_10_re)
#define c10_12_im (-c12_10_im)
#define c11_12_re (+c12_11_re)
#define c11_12_im (-c12_11_im)

// second chiral block of inverted clover term (reuses C0,...,C9)
#define c20_20_re c00_00_re
#define c21_20_re c01_00_re
#define c21_20_im c01_00_im
#define c22_20_re c02_00_re
#define c22_20_im c02_00_im
#define c30_20_re c10_00_re
#define c30_20_im c10_00_im
#define c31_20_re c11_00_re
#define c31_20_im c11_00_im
#define c32_20_re c12_00_re
#define c32_20_im c12_00_im
#define c20_21_re c00_01_re
#define c20_21_im c00_01_im
#define c21_21_re c01_01_re
#define c22_21_re c02_01_re
#define c22_21_im c02_01_im
#define c30_21_re c10_01_re
#define c30_21_im c10_01_im
#define c31_21_re c11_01_re
#define c31_21_im c11_01_im
#define c32_21_re c12_01_re
#define c32_21_im c12_01_im
#define c20_22_re c00_02_re
#define c20_22_im c00_02_im
#define c21_22_re c01_02_re
#define c21_22_im c01_02_im
#define c22_22_re c02_02_re
#define c30_22_re c10_02_re
#define c30_22_im c10_02_im
#define c31_22_re c11_02_re
#define c31_22_im c11_02_im
#define c32_22_re c12_02_re
#define c32_22_im c12_02_im
#define c20_30_re c00_10_re
#define c20_30_im c00_10_im
#define c21_30_re c01_10_re
#define c21_30_im c01_10_im
#define c22_30_re c02_10_re
#define c22_30_im c02_10_im
#define c30_30_re c10_10_re
#define c31_30_re c11_10_re
#define c31_30_im c11_10_im
#define c32_30_re c12_10_re
#define c32_30_im c12_10_im
#define c20_31_re c00_11_re
#define c20_31_im c00_11_im
#define c21_31_re c01_11_re
#define c21_31_im c01_11_im
#define c22_31_re c02_11_re
#define c22_31_im c02_11_im
#define c30_31_re c10_11_re
#define c30_31_im c10_11_im
#define c31_31_re c11_11_re
#define c32_31_re c12_11_re
#define c32_31_im c12_11_im
#define c20_32_re c00_12_re
#define c20_32_im c00_12_im
#define c21_32_re c01_12_re
#define c21_32_im c01_12_im
#define c22_32_re c02_12_re
#define c22_32_im c02_12_im
#define c30_32_re c10_12_re
#define c30_32_im c10_12_im
#define c31_32_re c11_12_re
#define c31_32_im c11_12_im
#define c32_32_re c12_12_re

// output spinor
VOLATILE spinorFloat o00_re;
VOLATILE spinorFloat o00_im;
VOLATILE spinorFloat o01_re;
VOLATILE spinorFloat o01_im;
VOLATILE spinorFloat o02_re;
VOLATILE spinorFloat o02_im;
VOLATILE spinorFloat o10_re;
VOLATILE spinorFloat o10_im;
VOLATILE spinorFloat o11_re;
VOLATILE spinorFloat o11_im;
VOLATILE spinorFloat o12_re;
VOLATILE spinorFloat o12_im;
VOLATILE spinorFloat o20_re;
VOLATILE spinorFloat o20_im;
VOLATILE spinorFloat o21_re;
VOLATILE spinorFloat o21_im;
VOLATILE spinorFloat o22_re;
VOLATILE spinorFloat o22_im;
VOLATILE spinorFloat o30_re;
VOLATILE spinorFloat o30_im;
VOLATILE spinorFloat o31_re;
VOLATILE spinorFloat o31_im;
VOLATILE spinorFloat o32_re;
VOLATILE spinorFloat o32_im;

#ifdef SPINOR_DOUBLE
#define SHARED_STRIDE 16 // to avoid bank conflicts on Fermi
#else
#define SHARED_STRIDE 32 // to avoid bank conflicts on Fermi
#endif

#include "read_gauge.h"
#include "read_clover.h"
#include "io_spinor.h"

int x1, x2, x3, x4;
int X;

#if (DD_PREC==2) // half precision
int sp_norm_idx;
#endif // half precision

int sid;

int dim;
int face_num;
int face_idx;
int Y[4] = {X1,X2,X3,X4};
int faceVolume[4];
faceVolume[0] = (X2*X3*X4)>>1;
faceVolume[1] = (X1*X3*X4)>>1;
faceVolume[2] = (X1*X2*X4)>>1;
faceVolume[3] = (X1*X2*X3)>>1;





  sid = blockIdx.x*blockDim.x + threadIdx.x;
  if (sid >= param.threads) return;

  dim = dimFromFaceIndex(sid, param); // sid is also modified
  

  const int face_volume = ((param.threadDimMapUpper[dim] - param.threadDimMapLower[dim]) >> 1);   // volume of one face
  face_num = (sid >= face_volume);              // is this thread updating face 0 or 1
  face_idx = sid - face_num*face_volume;        // index into the respective face

  // ghostOffset is scaled to include body (includes stride) and number of FloatN arrays (SPINOR_HOP)
  // face_idx not sid since faces are spin projected and share the same volume index (modulo UP/DOWN reading)
  //sp_idx = face_idx + param.ghostOffset[dim];


  coordsFromFaceIndex<1>(X, sid, x1, x2, x3, x4, face_idx, face_volume, dim, face_num, param.parity,Y);
  
  {
    bool active = false;
    for(int dir=0; dir<4; ++dir){
     active = active  || isActive(dim,dir,+1,x1,x2,x3,x4,param.commDim,param.X);
    }
    if(!active) return;
  }



  READ_INTERMEDIATE_SPINOR(INTERTEX, param.sp_stride, sid, sid);

  o00_re = i00_re;  o00_im = i00_im;
  o01_re = i01_re;  o01_im = i01_im;
  o02_re = i02_re;  o02_im = i02_im;
  o10_re = i10_re;  o10_im = i10_im;
  o11_re = i11_re;  o11_im = i11_im;
  o12_re = i12_re;  o12_im = i12_im;
  o20_re = i20_re;  o20_im = i20_im;
  o21_re = i21_re;  o21_im = i21_im;
  o22_re = i22_re;  o22_im = i22_im;
  o30_re = i30_re;  o30_im = i30_im;
  o31_re = i31_re;  o31_im = i31_im;
  o32_re = i32_re;  o32_im = i32_im;


if ( isActive(dim,0,+1,x1,x2,x3,x4,param.commDim,param.X) && x1==X1m1 )
{
  // Projector P0-
  // 1 0 0 -i 
  // 0 1 -i 0 
  // 0 i 1 0 
  // i 0 0 1 
  
  faceIndexFromCoords<1>(face_idx,x1,x2,x3,x4,0,Y);
  const int sp_idx = face_idx + param.ghostOffset[0];
#if (DD_PREC==2)
    sp_norm_idx = face_idx + faceVolume[0] + param.ghostNormOffset[0];
#endif
  
  const int ga_idx = sid;
  
  spinorFloat a0_re, a0_im;
  spinorFloat a1_re, a1_im;
  spinorFloat a2_re, a2_im;
  spinorFloat b0_re, b0_im;
  spinorFloat b1_re, b1_im;
  spinorFloat b2_re, b2_im;
  
  
  const int sp_stride_pad = ghostFace[0];
  
  // read half spinor from device memory
  READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx + (SPINOR_HOP/2)*sp_stride_pad, sp_norm_idx);
  
  a0_re = i00_re;  a0_im = i00_im;
  a1_re = i01_re;  a1_im = i01_im;
  a2_re = i02_re;  a2_im = i02_im;
  b0_re = i10_re;  b0_im = i10_im;
  b1_re = i11_re;  b1_im = i11_im;
  b2_re = i12_re;  b2_im = i12_im;
  
  
  // read gauge matrix from device memory
  READ_GAUGE_MATRIX(G, GAUGE0TEX, 0, ga_idx, ga_stride);
  
  // reconstruct gauge matrix
  RECONSTRUCT_GAUGE_MATRIX(0);
  
  // multiply row 0
  spinorFloat A0_re = 0;
  A0_re += g00_re * a0_re;
  A0_re -= g00_im * a0_im;
  A0_re += g01_re * a1_re;
  A0_re -= g01_im * a1_im;
  A0_re += g02_re * a2_re;
  A0_re -= g02_im * a2_im;
  spinorFloat A0_im = 0;
  A0_im += g00_re * a0_im;
  A0_im += g00_im * a0_re;
  A0_im += g01_re * a1_im;
  A0_im += g01_im * a1_re;
  A0_im += g02_re * a2_im;
  A0_im += g02_im * a2_re;
  spinorFloat B0_re = 0;
  B0_re += g00_re * b0_re;
  B0_re -= g00_im * b0_im;
  B0_re += g01_re * b1_re;
  B0_re -= g01_im * b1_im;
  B0_re += g02_re * b2_re;
  B0_re -= g02_im * b2_im;
  spinorFloat B0_im = 0;
  B0_im += g00_re * b0_im;
  B0_im += g00_im * b0_re;
  B0_im += g01_re * b1_im;
  B0_im += g01_im * b1_re;
  B0_im += g02_re * b2_im;
  B0_im += g02_im * b2_re;
  
  // multiply row 1
  spinorFloat A1_re = 0;
  A1_re += g10_re * a0_re;
  A1_re -= g10_im * a0_im;
  A1_re += g11_re * a1_re;
  A1_re -= g11_im * a1_im;
  A1_re += g12_re * a2_re;
  A1_re -= g12_im * a2_im;
  spinorFloat A1_im = 0;
  A1_im += g10_re * a0_im;
  A1_im += g10_im * a0_re;
  A1_im += g11_re * a1_im;
  A1_im += g11_im * a1_re;
  A1_im += g12_re * a2_im;
  A1_im += g12_im * a2_re;
  spinorFloat B1_re = 0;
  B1_re += g10_re * b0_re;
  B1_re -= g10_im * b0_im;
  B1_re += g11_re * b1_re;
  B1_re -= g11_im * b1_im;
  B1_re += g12_re * b2_re;
  B1_re -= g12_im * b2_im;
  spinorFloat B1_im = 0;
  B1_im += g10_re * b0_im;
  B1_im += g10_im * b0_re;
  B1_im += g11_re * b1_im;
  B1_im += g11_im * b1_re;
  B1_im += g12_re * b2_im;
  B1_im += g12_im * b2_re;
  
  // multiply row 2
  spinorFloat A2_re = 0;
  A2_re += g20_re * a0_re;
  A2_re -= g20_im * a0_im;
  A2_re += g21_re * a1_re;
  A2_re -= g21_im * a1_im;
  A2_re += g22_re * a2_re;
  A2_re -= g22_im * a2_im;
  spinorFloat A2_im = 0;
  A2_im += g20_re * a0_im;
  A2_im += g20_im * a0_re;
  A2_im += g21_re * a1_im;
  A2_im += g21_im * a1_re;
  A2_im += g22_re * a2_im;
  A2_im += g22_im * a2_re;
  spinorFloat B2_re = 0;
  B2_re += g20_re * b0_re;
  B2_re -= g20_im * b0_im;
  B2_re += g21_re * b1_re;
  B2_re -= g21_im * b1_im;
  B2_re += g22_re * b2_re;
  B2_re -= g22_im * b2_im;
  spinorFloat B2_im = 0;
  B2_im += g20_re * b0_im;
  B2_im += g20_im * b0_re;
  B2_im += g21_re * b1_im;
  B2_im += g21_im * b1_re;
  B2_im += g22_re * b2_im;
  B2_im += g22_im * b2_re;
  
  o00_re += A0_re;
  o00_im += A0_im;
  o10_re += B0_re;
  o10_im += B0_im;
  o20_re -= B0_im;
  o20_im += B0_re;
  o30_re -= A0_im;
  o30_im += A0_re;
  
  o01_re += A1_re;
  o01_im += A1_im;
  o11_re += B1_re;
  o11_im += B1_im;
  o21_re -= B1_im;
  o21_im += B1_re;
  o31_re -= A1_im;
  o31_im += A1_re;
  
  o02_re += A2_re;
  o02_im += A2_im;
  o12_re += B2_re;
  o12_im += B2_im;
  o22_re -= B2_im;
  o22_im += B2_re;
  o32_re -= A2_im;
  o32_im += A2_re;
  
}

if ( isActive(dim,0,-1,x1,x2,x3,x4,param.commDim,param.X) && x1==0 )
{
  // Projector P0+
  // 1 0 0 i 
  // 0 1 i 0 
  // 0 -i 1 0 
  // -i 0 0 1 
  
  faceIndexFromCoords<1>(face_idx,x1,x2,x3,x4,0,Y);
  const int sp_idx = face_idx + param.ghostOffset[0];
#if (DD_PREC==2)
    sp_norm_idx = face_idx + param.ghostNormOffset[0];
#endif
  
  const int ga_idx = Vh+face_idx;
  
  spinorFloat a0_re, a0_im;
  spinorFloat a1_re, a1_im;
  spinorFloat a2_re, a2_im;
  spinorFloat b0_re, b0_im;
  spinorFloat b1_re, b1_im;
  spinorFloat b2_re, b2_im;
  
  
  const int sp_stride_pad = ghostFace[0];
  
  // read half spinor from device memory
  READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx, sp_norm_idx);
  
  a0_re = i00_re;  a0_im = i00_im;
  a1_re = i01_re;  a1_im = i01_im;
  a2_re = i02_re;  a2_im = i02_im;
  b0_re = i10_re;  b0_im = i10_im;
  b1_re = i11_re;  b1_im = i11_im;
  b2_re = i12_re;  b2_im = i12_im;
  
  
  // read gauge matrix from device memory
  READ_GAUGE_MATRIX(G, GAUGE1TEX, 1, ga_idx, ga_stride);
  
  // reconstruct gauge matrix
  RECONSTRUCT_GAUGE_MATRIX(1);
  
  // multiply row 0
  spinorFloat A0_re = 0;
  A0_re += gT00_re * a0_re;
  A0_re -= gT00_im * a0_im;
  A0_re += gT01_re * a1_re;
  A0_re -= gT01_im * a1_im;
  A0_re += gT02_re * a2_re;
  A0_re -= gT02_im * a2_im;
  spinorFloat A0_im = 0;
  A0_im += gT00_re * a0_im;
  A0_im += gT00_im * a0_re;
  A0_im += gT01_re * a1_im;
  A0_im += gT01_im * a1_re;
  A0_im += gT02_re * a2_im;
  A0_im += gT02_im * a2_re;
  spinorFloat B0_re = 0;
  B0_re += gT00_re * b0_re;
  B0_re -= gT00_im * b0_im;
  B0_re += gT01_re * b1_re;
  B0_re -= gT01_im * b1_im;
  B0_re += gT02_re * b2_re;
  B0_re -= gT02_im * b2_im;
  spinorFloat B0_im = 0;
  B0_im += gT00_re * b0_im;
  B0_im += gT00_im * b0_re;
  B0_im += gT01_re * b1_im;
  B0_im += gT01_im * b1_re;
  B0_im += gT02_re * b2_im;
  B0_im += gT02_im * b2_re;
  
  // multiply row 1
  spinorFloat A1_re = 0;
  A1_re += gT10_re * a0_re;
  A1_re -= gT10_im * a0_im;
  A1_re += gT11_re * a1_re;
  A1_re -= gT11_im * a1_im;
  A1_re += gT12_re * a2_re;
  A1_re -= gT12_im * a2_im;
  spinorFloat A1_im = 0;
  A1_im += gT10_re * a0_im;
  A1_im += gT10_im * a0_re;
  A1_im += gT11_re * a1_im;
  A1_im += gT11_im * a1_re;
  A1_im += gT12_re * a2_im;
  A1_im += gT12_im * a2_re;
  spinorFloat B1_re = 0;
  B1_re += gT10_re * b0_re;
  B1_re -= gT10_im * b0_im;
  B1_re += gT11_re * b1_re;
  B1_re -= gT11_im * b1_im;
  B1_re += gT12_re * b2_re;
  B1_re -= gT12_im * b2_im;
  spinorFloat B1_im = 0;
  B1_im += gT10_re * b0_im;
  B1_im += gT10_im * b0_re;
  B1_im += gT11_re * b1_im;
  B1_im += gT11_im * b1_re;
  B1_im += gT12_re * b2_im;
  B1_im += gT12_im * b2_re;
  
  // multiply row 2
  spinorFloat A2_re = 0;
  A2_re += gT20_re * a0_re;
  A2_re -= gT20_im * a0_im;
  A2_re += gT21_re * a1_re;
  A2_re -= gT21_im * a1_im;
  A2_re += gT22_re * a2_re;
  A2_re -= gT22_im * a2_im;
  spinorFloat A2_im = 0;
  A2_im += gT20_re * a0_im;
  A2_im += gT20_im * a0_re;
  A2_im += gT21_re * a1_im;
  A2_im += gT21_im * a1_re;
  A2_im += gT22_re * a2_im;
  A2_im += gT22_im * a2_re;
  spinorFloat B2_re = 0;
  B2_re += gT20_re * b0_re;
  B2_re -= gT20_im * b0_im;
  B2_re += gT21_re * b1_re;
  B2_re -= gT21_im * b1_im;
  B2_re += gT22_re * b2_re;
  B2_re -= gT22_im * b2_im;
  spinorFloat B2_im = 0;
  B2_im += gT20_re * b0_im;
  B2_im += gT20_im * b0_re;
  B2_im += gT21_re * b1_im;
  B2_im += gT21_im * b1_re;
  B2_im += gT22_re * b2_im;
  B2_im += gT22_im * b2_re;
  
  o00_re += A0_re;
  o00_im += A0_im;
  o10_re += B0_re;
  o10_im += B0_im;
  o20_re += B0_im;
  o20_im -= B0_re;
  o30_re += A0_im;
  o30_im -= A0_re;
  
  o01_re += A1_re;
  o01_im += A1_im;
  o11_re += B1_re;
  o11_im += B1_im;
  o21_re += B1_im;
  o21_im -= B1_re;
  o31_re += A1_im;
  o31_im -= A1_re;
  
  o02_re += A2_re;
  o02_im += A2_im;
  o12_re += B2_re;
  o12_im += B2_im;
  o22_re += B2_im;
  o22_im -= B2_re;
  o32_re += A2_im;
  o32_im -= A2_re;
  
}

if ( isActive(dim,1,+1,x1,x2,x3,x4,param.commDim,param.X) && x2==X2m1 )
{
  // Projector P1-
  // 1 0 0 -1 
  // 0 1 1 0 
  // 0 1 1 0 
  // -1 0 0 1 
  
  faceIndexFromCoords<1>(face_idx,x1,x2,x3,x4,1,Y);
  const int sp_idx = face_idx + param.ghostOffset[1];
#if (DD_PREC==2)
    sp_norm_idx = face_idx + faceVolume[1] + param.ghostNormOffset[1];
#endif
  
  const int ga_idx = sid;
  
  spinorFloat a0_re, a0_im;
  spinorFloat a1_re, a1_im;
  spinorFloat a2_re, a2_im;
  spinorFloat b0_re, b0_im;
  spinorFloat b1_re, b1_im;
  spinorFloat b2_re, b2_im;
  
  
  const int sp_stride_pad = ghostFace[1];
  
  // read half spinor from device memory
  READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx + (SPINOR_HOP/2)*sp_stride_pad, sp_norm_idx);
  
  a0_re = i00_re;  a0_im = i00_im;
  a1_re = i01_re;  a1_im = i01_im;
  a2_re = i02_re;  a2_im = i02_im;
  b0_re = i10_re;  b0_im = i10_im;
  b1_re = i11_re;  b1_im = i11_im;
  b2_re = i12_re;  b2_im = i12_im;
  
  
  // read gauge matrix from device memory
  READ_GAUGE_MATRIX(G, GAUGE0TEX, 2, ga_idx, ga_stride);
  
  // reconstruct gauge matrix
  RECONSTRUCT_GAUGE_MATRIX(2);
  
  // multiply row 0
  spinorFloat A0_re = 0;
  A0_re += g00_re * a0_re;
  A0_re -= g00_im * a0_im;
  A0_re += g01_re * a1_re;
  A0_re -= g01_im * a1_im;
  A0_re += g02_re * a2_re;
  A0_re -= g02_im * a2_im;
  spinorFloat A0_im = 0;
  A0_im += g00_re * a0_im;
  A0_im += g00_im * a0_re;
  A0_im += g01_re * a1_im;
  A0_im += g01_im * a1_re;
  A0_im += g02_re * a2_im;
  A0_im += g02_im * a2_re;
  spinorFloat B0_re = 0;
  B0_re += g00_re * b0_re;
  B0_re -= g00_im * b0_im;
  B0_re += g01_re * b1_re;
  B0_re -= g01_im * b1_im;
  B0_re += g02_re * b2_re;
  B0_re -= g02_im * b2_im;
  spinorFloat B0_im = 0;
  B0_im += g00_re * b0_im;
  B0_im += g00_im * b0_re;
  B0_im += g01_re * b1_im;
  B0_im += g01_im * b1_re;
  B0_im += g02_re * b2_im;
  B0_im += g02_im * b2_re;
  
  // multiply row 1
  spinorFloat A1_re = 0;
  A1_re += g10_re * a0_re;
  A1_re -= g10_im * a0_im;
  A1_re += g11_re * a1_re;
  A1_re -= g11_im * a1_im;
  A1_re += g12_re * a2_re;
  A1_re -= g12_im * a2_im;
  spinorFloat A1_im = 0;
  A1_im += g10_re * a0_im;
  A1_im += g10_im * a0_re;
  A1_im += g11_re * a1_im;
  A1_im += g11_im * a1_re;
  A1_im += g12_re * a2_im;
  A1_im += g12_im * a2_re;
  spinorFloat B1_re = 0;
  B1_re += g10_re * b0_re;
  B1_re -= g10_im * b0_im;
  B1_re += g11_re * b1_re;
  B1_re -= g11_im * b1_im;
  B1_re += g12_re * b2_re;
  B1_re -= g12_im * b2_im;
  spinorFloat B1_im = 0;
  B1_im += g10_re * b0_im;
  B1_im += g10_im * b0_re;
  B1_im += g11_re * b1_im;
  B1_im += g11_im * b1_re;
  B1_im += g12_re * b2_im;
  B1_im += g12_im * b2_re;
  
  // multiply row 2
  spinorFloat A2_re = 0;
  A2_re += g20_re * a0_re;
  A2_re -= g20_im * a0_im;
  A2_re += g21_re * a1_re;
  A2_re -= g21_im * a1_im;
  A2_re += g22_re * a2_re;
  A2_re -= g22_im * a2_im;
  spinorFloat A2_im = 0;
  A2_im += g20_re * a0_im;
  A2_im += g20_im * a0_re;
  A2_im += g21_re * a1_im;
  A2_im += g21_im * a1_re;
  A2_im += g22_re * a2_im;
  A2_im += g22_im * a2_re;
  spinorFloat B2_re = 0;
  B2_re += g20_re * b0_re;
  B2_re -= g20_im * b0_im;
  B2_re += g21_re * b1_re;
  B2_re -= g21_im * b1_im;
  B2_re += g22_re * b2_re;
  B2_re -= g22_im * b2_im;
  spinorFloat B2_im = 0;
  B2_im += g20_re * b0_im;
  B2_im += g20_im * b0_re;
  B2_im += g21_re * b1_im;
  B2_im += g21_im * b1_re;
  B2_im += g22_re * b2_im;
  B2_im += g22_im * b2_re;
  
  o00_re += A0_re;
  o00_im += A0_im;
  o10_re += B0_re;
  o10_im += B0_im;
  o20_re += B0_re;
  o20_im += B0_im;
  o30_re -= A0_re;
  o30_im -= A0_im;
  
  o01_re += A1_re;
  o01_im += A1_im;
  o11_re += B1_re;
  o11_im += B1_im;
  o21_re += B1_re;
  o21_im += B1_im;
  o31_re -= A1_re;
  o31_im -= A1_im;
  
  o02_re += A2_re;
  o02_im += A2_im;
  o12_re += B2_re;
  o12_im += B2_im;
  o22_re += B2_re;
  o22_im += B2_im;
  o32_re -= A2_re;
  o32_im -= A2_im;
  
}

if ( isActive(dim,1,-1,x1,x2,x3,x4,param.commDim,param.X) && x2==0 )
{
  // Projector P1+
  // 1 0 0 1 
  // 0 1 -1 0 
  // 0 -1 1 0 
  // 1 0 0 1 
  
  faceIndexFromCoords<1>(face_idx,x1,x2,x3,x4,1,Y);
  const int sp_idx = face_idx + param.ghostOffset[1];
#if (DD_PREC==2)
    sp_norm_idx = face_idx + param.ghostNormOffset[1];
#endif
  
  const int ga_idx = Vh+face_idx;
  
  spinorFloat a0_re, a0_im;
  spinorFloat a1_re, a1_im;
  spinorFloat a2_re, a2_im;
  spinorFloat b0_re, b0_im;
  spinorFloat b1_re, b1_im;
  spinorFloat b2_re, b2_im;
  
  
  const int sp_stride_pad = ghostFace[1];
  
  // read half spinor from device memory
  READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx, sp_norm_idx);
  
  a0_re = i00_re;  a0_im = i00_im;
  a1_re = i01_re;  a1_im = i01_im;
  a2_re = i02_re;  a2_im = i02_im;
  b0_re = i10_re;  b0_im = i10_im;
  b1_re = i11_re;  b1_im = i11_im;
  b2_re = i12_re;  b2_im = i12_im;
  
  
  // read gauge matrix from device memory
  READ_GAUGE_MATRIX(G, GAUGE1TEX, 3, ga_idx, ga_stride);
  
  // reconstruct gauge matrix
  RECONSTRUCT_GAUGE_MATRIX(3);
  
  // multiply row 0
  spinorFloat A0_re = 0;
  A0_re += gT00_re * a0_re;
  A0_re -= gT00_im * a0_im;
  A0_re += gT01_re * a1_re;
  A0_re -= gT01_im * a1_im;
  A0_re += gT02_re * a2_re;
  A0_re -= gT02_im * a2_im;
  spinorFloat A0_im = 0;
  A0_im += gT00_re * a0_im;
  A0_im += gT00_im * a0_re;
  A0_im += gT01_re * a1_im;
  A0_im += gT01_im * a1_re;
  A0_im += gT02_re * a2_im;
  A0_im += gT02_im * a2_re;
  spinorFloat B0_re = 0;
  B0_re += gT00_re * b0_re;
  B0_re -= gT00_im * b0_im;
  B0_re += gT01_re * b1_re;
  B0_re -= gT01_im * b1_im;
  B0_re += gT02_re * b2_re;
  B0_re -= gT02_im * b2_im;
  spinorFloat B0_im = 0;
  B0_im += gT00_re * b0_im;
  B0_im += gT00_im * b0_re;
  B0_im += gT01_re * b1_im;
  B0_im += gT01_im * b1_re;
  B0_im += gT02_re * b2_im;
  B0_im += gT02_im * b2_re;
  
  // multiply row 1
  spinorFloat A1_re = 0;
  A1_re += gT10_re * a0_re;
  A1_re -= gT10_im * a0_im;
  A1_re += gT11_re * a1_re;
  A1_re -= gT11_im * a1_im;
  A1_re += gT12_re * a2_re;
  A1_re -= gT12_im * a2_im;
  spinorFloat A1_im = 0;
  A1_im += gT10_re * a0_im;
  A1_im += gT10_im * a0_re;
  A1_im += gT11_re * a1_im;
  A1_im += gT11_im * a1_re;
  A1_im += gT12_re * a2_im;
  A1_im += gT12_im * a2_re;
  spinorFloat B1_re = 0;
  B1_re += gT10_re * b0_re;
  B1_re -= gT10_im * b0_im;
  B1_re += gT11_re * b1_re;
  B1_re -= gT11_im * b1_im;
  B1_re += gT12_re * b2_re;
  B1_re -= gT12_im * b2_im;
  spinorFloat B1_im = 0;
  B1_im += gT10_re * b0_im;
  B1_im += gT10_im * b0_re;
  B1_im += gT11_re * b1_im;
  B1_im += gT11_im * b1_re;
  B1_im += gT12_re * b2_im;
  B1_im += gT12_im * b2_re;
  
  // multiply row 2
  spinorFloat A2_re = 0;
  A2_re += gT20_re * a0_re;
  A2_re -= gT20_im * a0_im;
  A2_re += gT21_re * a1_re;
  A2_re -= gT21_im * a1_im;
  A2_re += gT22_re * a2_re;
  A2_re -= gT22_im * a2_im;
  spinorFloat A2_im = 0;
  A2_im += gT20_re * a0_im;
  A2_im += gT20_im * a0_re;
  A2_im += gT21_re * a1_im;
  A2_im += gT21_im * a1_re;
  A2_im += gT22_re * a2_im;
  A2_im += gT22_im * a2_re;
  spinorFloat B2_re = 0;
  B2_re += gT20_re * b0_re;
  B2_re -= gT20_im * b0_im;
  B2_re += gT21_re * b1_re;
  B2_re -= gT21_im * b1_im;
  B2_re += gT22_re * b2_re;
  B2_re -= gT22_im * b2_im;
  spinorFloat B2_im = 0;
  B2_im += gT20_re * b0_im;
  B2_im += gT20_im * b0_re;
  B2_im += gT21_re * b1_im;
  B2_im += gT21_im * b1_re;
  B2_im += gT22_re * b2_im;
  B2_im += gT22_im * b2_re;
  
  o00_re += A0_re;
  o00_im += A0_im;
  o10_re += B0_re;
  o10_im += B0_im;
  o20_re -= B0_re;
  o20_im -= B0_im;
  o30_re += A0_re;
  o30_im += A0_im;
  
  o01_re += A1_re;
  o01_im += A1_im;
  o11_re += B1_re;
  o11_im += B1_im;
  o21_re -= B1_re;
  o21_im -= B1_im;
  o31_re += A1_re;
  o31_im += A1_im;
  
  o02_re += A2_re;
  o02_im += A2_im;
  o12_re += B2_re;
  o12_im += B2_im;
  o22_re -= B2_re;
  o22_im -= B2_im;
  o32_re += A2_re;
  o32_im += A2_im;
  
}

if ( isActive(dim,2,+1,x1,x2,x3,x4,param.commDim,param.X) && x3==X3m1 )
{
  // Projector P2-
  // 1 0 -i 0 
  // 0 1 0 i 
  // i 0 1 0 
  // 0 -i 0 1 
  
  faceIndexFromCoords<1>(face_idx,x1,x2,x3,x4,2,Y);
  const int sp_idx = face_idx + param.ghostOffset[2];
#if (DD_PREC==2)
    sp_norm_idx = face_idx + faceVolume[2] + param.ghostNormOffset[2];
#endif
  
  const int ga_idx = sid;
  
  spinorFloat a0_re, a0_im;
  spinorFloat a1_re, a1_im;
  spinorFloat a2_re, a2_im;
  spinorFloat b0_re, b0_im;
  spinorFloat b1_re, b1_im;
  spinorFloat b2_re, b2_im;
  
  
  const int sp_stride_pad = ghostFace[2];
  
  // read half spinor from device memory
  READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx + (SPINOR_HOP/2)*sp_stride_pad, sp_norm_idx);
  
  a0_re = i00_re;  a0_im = i00_im;
  a1_re = i01_re;  a1_im = i01_im;
  a2_re = i02_re;  a2_im = i02_im;
  b0_re = i10_re;  b0_im = i10_im;
  b1_re = i11_re;  b1_im = i11_im;
  b2_re = i12_re;  b2_im = i12_im;
  
  
  // read gauge matrix from device memory
  READ_GAUGE_MATRIX(G, GAUGE0TEX, 4, ga_idx, ga_stride);
  
  // reconstruct gauge matrix
  RECONSTRUCT_GAUGE_MATRIX(4);
  
  // multiply row 0
  spinorFloat A0_re = 0;
  A0_re += g00_re * a0_re;
  A0_re -= g00_im * a0_im;
  A0_re += g01_re * a1_re;
  A0_re -= g01_im * a1_im;
  A0_re += g02_re * a2_re;
  A0_re -= g02_im * a2_im;
  spinorFloat A0_im = 0;
  A0_im += g00_re * a0_im;
  A0_im += g00_im * a0_re;
  A0_im += g01_re * a1_im;
  A0_im += g01_im * a1_re;
  A0_im += g02_re * a2_im;
  A0_im += g02_im * a2_re;
  spinorFloat B0_re = 0;
  B0_re += g00_re * b0_re;
  B0_re -= g00_im * b0_im;
  B0_re += g01_re * b1_re;
  B0_re -= g01_im * b1_im;
  B0_re += g02_re * b2_re;
  B0_re -= g02_im * b2_im;
  spinorFloat B0_im = 0;
  B0_im += g00_re * b0_im;
  B0_im += g00_im * b0_re;
  B0_im += g01_re * b1_im;
  B0_im += g01_im * b1_re;
  B0_im += g02_re * b2_im;
  B0_im += g02_im * b2_re;
  
  // multiply row 1
  spinorFloat A1_re = 0;
  A1_re += g10_re * a0_re;
  A1_re -= g10_im * a0_im;
  A1_re += g11_re * a1_re;
  A1_re -= g11_im * a1_im;
  A1_re += g12_re * a2_re;
  A1_re -= g12_im * a2_im;
  spinorFloat A1_im = 0;
  A1_im += g10_re * a0_im;
  A1_im += g10_im * a0_re;
  A1_im += g11_re * a1_im;
  A1_im += g11_im * a1_re;
  A1_im += g12_re * a2_im;
  A1_im += g12_im * a2_re;
  spinorFloat B1_re = 0;
  B1_re += g10_re * b0_re;
  B1_re -= g10_im * b0_im;
  B1_re += g11_re * b1_re;
  B1_re -= g11_im * b1_im;
  B1_re += g12_re * b2_re;
  B1_re -= g12_im * b2_im;
  spinorFloat B1_im = 0;
  B1_im += g10_re * b0_im;
  B1_im += g10_im * b0_re;
  B1_im += g11_re * b1_im;
  B1_im += g11_im * b1_re;
  B1_im += g12_re * b2_im;
  B1_im += g12_im * b2_re;
  
  // multiply row 2
  spinorFloat A2_re = 0;
  A2_re += g20_re * a0_re;
  A2_re -= g20_im * a0_im;
  A2_re += g21_re * a1_re;
  A2_re -= g21_im * a1_im;
  A2_re += g22_re * a2_re;
  A2_re -= g22_im * a2_im;
  spinorFloat A2_im = 0;
  A2_im += g20_re * a0_im;
  A2_im += g20_im * a0_re;
  A2_im += g21_re * a1_im;
  A2_im += g21_im * a1_re;
  A2_im += g22_re * a2_im;
  A2_im += g22_im * a2_re;
  spinorFloat B2_re = 0;
  B2_re += g20_re * b0_re;
  B2_re -= g20_im * b0_im;
  B2_re += g21_re * b1_re;
  B2_re -= g21_im * b1_im;
  B2_re += g22_re * b2_re;
  B2_re -= g22_im * b2_im;
  spinorFloat B2_im = 0;
  B2_im += g20_re * b0_im;
  B2_im += g20_im * b0_re;
  B2_im += g21_re * b1_im;
  B2_im += g21_im * b1_re;
  B2_im += g22_re * b2_im;
  B2_im += g22_im * b2_re;
  
  o00_re += A0_re;
  o00_im += A0_im;
  o10_re += B0_re;
  o10_im += B0_im;
  o20_re -= A0_im;
  o20_im += A0_re;
  o30_re += B0_im;
  o30_im -= B0_re;
  
  o01_re += A1_re;
  o01_im += A1_im;
  o11_re += B1_re;
  o11_im += B1_im;
  o21_re -= A1_im;
  o21_im += A1_re;
  o31_re += B1_im;
  o31_im -= B1_re;
  
  o02_re += A2_re;
  o02_im += A2_im;
  o12_re += B2_re;
  o12_im += B2_im;
  o22_re -= A2_im;
  o22_im += A2_re;
  o32_re += B2_im;
  o32_im -= B2_re;
  
}

if ( isActive(dim,2,-1,x1,x2,x3,x4,param.commDim,param.X) && x3==0 )
{
  // Projector P2+
  // 1 0 i 0 
  // 0 1 0 -i 
  // -i 0 1 0 
  // 0 i 0 1 
  
  faceIndexFromCoords<1>(face_idx,x1,x2,x3,x4,2,Y);
  const int sp_idx = face_idx + param.ghostOffset[2];
#if (DD_PREC==2)
    sp_norm_idx = face_idx + param.ghostNormOffset[2];
#endif
  
  const int ga_idx = Vh+face_idx;
  
  spinorFloat a0_re, a0_im;
  spinorFloat a1_re, a1_im;
  spinorFloat a2_re, a2_im;
  spinorFloat b0_re, b0_im;
  spinorFloat b1_re, b1_im;
  spinorFloat b2_re, b2_im;
  
  
  const int sp_stride_pad = ghostFace[2];
  
  // read half spinor from device memory
  READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx, sp_norm_idx);
  
  a0_re = i00_re;  a0_im = i00_im;
  a1_re = i01_re;  a1_im = i01_im;
  a2_re = i02_re;  a2_im = i02_im;
  b0_re = i10_re;  b0_im = i10_im;
  b1_re = i11_re;  b1_im = i11_im;
  b2_re = i12_re;  b2_im = i12_im;
  
  
  // read gauge matrix from device memory
  READ_GAUGE_MATRIX(G, GAUGE1TEX, 5, ga_idx, ga_stride);
  
  // reconstruct gauge matrix
  RECONSTRUCT_GAUGE_MATRIX(5);
  
  // multiply row 0
  spinorFloat A0_re = 0;
  A0_re += gT00_re * a0_re;
  A0_re -= gT00_im * a0_im;
  A0_re += gT01_re * a1_re;
  A0_re -= gT01_im * a1_im;
  A0_re += gT02_re * a2_re;
  A0_re -= gT02_im * a2_im;
  spinorFloat A0_im = 0;
  A0_im += gT00_re * a0_im;
  A0_im += gT00_im * a0_re;
  A0_im += gT01_re * a1_im;
  A0_im += gT01_im * a1_re;
  A0_im += gT02_re * a2_im;
  A0_im += gT02_im * a2_re;
  spinorFloat B0_re = 0;
  B0_re += gT00_re * b0_re;
  B0_re -= gT00_im * b0_im;
  B0_re += gT01_re * b1_re;
  B0_re -= gT01_im * b1_im;
  B0_re += gT02_re * b2_re;
  B0_re -= gT02_im * b2_im;
  spinorFloat B0_im = 0;
  B0_im += gT00_re * b0_im;
  B0_im += gT00_im * b0_re;
  B0_im += gT01_re * b1_im;
  B0_im += gT01_im * b1_re;
  B0_im += gT02_re * b2_im;
  B0_im += gT02_im * b2_re;
  
  // multiply row 1
  spinorFloat A1_re = 0;
  A1_re += gT10_re * a0_re;
  A1_re -= gT10_im * a0_im;
  A1_re += gT11_re * a1_re;
  A1_re -= gT11_im * a1_im;
  A1_re += gT12_re * a2_re;
  A1_re -= gT12_im * a2_im;
  spinorFloat A1_im = 0;
  A1_im += gT10_re * a0_im;
  A1_im += gT10_im * a0_re;
  A1_im += gT11_re * a1_im;
  A1_im += gT11_im * a1_re;
  A1_im += gT12_re * a2_im;
  A1_im += gT12_im * a2_re;
  spinorFloat B1_re = 0;
  B1_re += gT10_re * b0_re;
  B1_re -= gT10_im * b0_im;
  B1_re += gT11_re * b1_re;
  B1_re -= gT11_im * b1_im;
  B1_re += gT12_re * b2_re;
  B1_re -= gT12_im * b2_im;
  spinorFloat B1_im = 0;
  B1_im += gT10_re * b0_im;
  B1_im += gT10_im * b0_re;
  B1_im += gT11_re * b1_im;
  B1_im += gT11_im * b1_re;
  B1_im += gT12_re * b2_im;
  B1_im += gT12_im * b2_re;
  
  // multiply row 2
  spinorFloat A2_re = 0;
  A2_re += gT20_re * a0_re;
  A2_re -= gT20_im * a0_im;
  A2_re += gT21_re * a1_re;
  A2_re -= gT21_im * a1_im;
  A2_re += gT22_re * a2_re;
  A2_re -= gT22_im * a2_im;
  spinorFloat A2_im = 0;
  A2_im += gT20_re * a0_im;
  A2_im += gT20_im * a0_re;
  A2_im += gT21_re * a1_im;
  A2_im += gT21_im * a1_re;
  A2_im += gT22_re * a2_im;
  A2_im += gT22_im * a2_re;
  spinorFloat B2_re = 0;
  B2_re += gT20_re * b0_re;
  B2_re -= gT20_im * b0_im;
  B2_re += gT21_re * b1_re;
  B2_re -= gT21_im * b1_im;
  B2_re += gT22_re * b2_re;
  B2_re -= gT22_im * b2_im;
  spinorFloat B2_im = 0;
  B2_im += gT20_re * b0_im;
  B2_im += gT20_im * b0_re;
  B2_im += gT21_re * b1_im;
  B2_im += gT21_im * b1_re;
  B2_im += gT22_re * b2_im;
  B2_im += gT22_im * b2_re;
  
  o00_re += A0_re;
  o00_im += A0_im;
  o10_re += B0_re;
  o10_im += B0_im;
  o20_re += A0_im;
  o20_im -= A0_re;
  o30_re -= B0_im;
  o30_im += B0_re;
  
  o01_re += A1_re;
  o01_im += A1_im;
  o11_re += B1_re;
  o11_im += B1_im;
  o21_re += A1_im;
  o21_im -= A1_re;
  o31_re -= B1_im;
  o31_im += B1_re;
  
  o02_re += A2_re;
  o02_im += A2_im;
  o12_re += B2_re;
  o12_im += B2_im;
  o22_re += A2_im;
  o22_im -= A2_re;
  o32_re -= B2_im;
  o32_im += B2_re;
  
}

if ( isActive(dim,3,+1,x1,x2,x3,x4,param.commDim,param.X) && x4==X4m1 )
{
  // Projector P3-
  // 0 0 0 0 
  // 0 0 0 0 
  // 0 0 2 0 
  // 0 0 0 2 
  
  faceIndexFromCoords<1>(face_idx,x1,x2,x3,x4,3,Y);
  const int sp_idx = face_idx + param.ghostOffset[3];
#if (DD_PREC==2)
    sp_norm_idx = face_idx + faceVolume[3] + param.ghostNormOffset[3];
#endif
  
  const int ga_idx = sid;
  
  if (gauge_fixed && ga_idx < X4X3X2X1hmX3X2X1h)
  {
    spinorFloat a0_re, a0_im;
    spinorFloat a1_re, a1_im;
    spinorFloat a2_re, a2_im;
    spinorFloat b0_re, b0_im;
    spinorFloat b1_re, b1_im;
    spinorFloat b2_re, b2_im;
    
    
    const int sp_stride_pad = ghostFace[3];
    const int t_proj_scale = TPROJSCALE;
    
    // read half spinor from device memory
    READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx + (SPINOR_HOP/2)*sp_stride_pad, sp_norm_idx);
    
    a0_re = t_proj_scale*i00_re;  a0_im = t_proj_scale*i00_im;
    a1_re = t_proj_scale*i01_re;  a1_im = t_proj_scale*i01_im;
    a2_re = t_proj_scale*i02_re;  a2_im = t_proj_scale*i02_im;
    b0_re = t_proj_scale*i10_re;  b0_im = t_proj_scale*i10_im;
    b1_re = t_proj_scale*i11_re;  b1_im = t_proj_scale*i11_im;
    b2_re = t_proj_scale*i12_re;  b2_im = t_proj_scale*i12_im;
    
    
    // identity gauge matrix
    spinorFloat A0_re = a0_re; spinorFloat A0_im = a0_im;
    spinorFloat B0_re = b0_re; spinorFloat B0_im = b0_im;
    spinorFloat A1_re = a1_re; spinorFloat A1_im = a1_im;
    spinorFloat B1_re = b1_re; spinorFloat B1_im = b1_im;
    spinorFloat A2_re = a2_re; spinorFloat A2_im = a2_im;
    spinorFloat B2_re = b2_re; spinorFloat B2_im = b2_im;
    
    o20_re += A0_re;
    o20_im += A0_im;
    o30_re += B0_re;
    o30_im += B0_im;
    
    o21_re += A1_re;
    o21_im += A1_im;
    o31_re += B1_re;
    o31_im += B1_im;
    
    o22_re += A2_re;
    o22_im += A2_im;
    o32_re += B2_re;
    o32_im += B2_im;
    
  } else {
    spinorFloat a0_re, a0_im;
    spinorFloat a1_re, a1_im;
    spinorFloat a2_re, a2_im;
    spinorFloat b0_re, b0_im;
    spinorFloat b1_re, b1_im;
    spinorFloat b2_re, b2_im;
    
    
    const int sp_stride_pad = ghostFace[3];
    const int t_proj_scale = TPROJSCALE;
    
    // read half spinor from device memory
    READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx + (SPINOR_HOP/2)*sp_stride_pad, sp_norm_idx);
    
    a0_re = t_proj_scale*i00_re;  a0_im = t_proj_scale*i00_im;
    a1_re = t_proj_scale*i01_re;  a1_im = t_proj_scale*i01_im;
    a2_re = t_proj_scale*i02_re;  a2_im = t_proj_scale*i02_im;
    b0_re = t_proj_scale*i10_re;  b0_im = t_proj_scale*i10_im;
    b1_re = t_proj_scale*i11_re;  b1_im = t_proj_scale*i11_im;
    b2_re = t_proj_scale*i12_re;  b2_im = t_proj_scale*i12_im;
    
    
    // read gauge matrix from device memory
    READ_GAUGE_MATRIX(G, GAUGE0TEX, 6, ga_idx, ga_stride);
    
    // reconstruct gauge matrix
    RECONSTRUCT_GAUGE_MATRIX(6);
    
    // multiply row 0
    spinorFloat A0_re = 0;
    A0_re += g00_re * a0_re;
    A0_re -= g00_im * a0_im;
    A0_re += g01_re * a1_re;
    A0_re -= g01_im * a1_im;
    A0_re += g02_re * a2_re;
    A0_re -= g02_im * a2_im;
    spinorFloat A0_im = 0;
    A0_im += g00_re * a0_im;
    A0_im += g00_im * a0_re;
    A0_im += g01_re * a1_im;
    A0_im += g01_im * a1_re;
    A0_im += g02_re * a2_im;
    A0_im += g02_im * a2_re;
    spinorFloat B0_re = 0;
    B0_re += g00_re * b0_re;
    B0_re -= g00_im * b0_im;
    B0_re += g01_re * b1_re;
    B0_re -= g01_im * b1_im;
    B0_re += g02_re * b2_re;
    B0_re -= g02_im * b2_im;
    spinorFloat B0_im = 0;
    B0_im += g00_re * b0_im;
    B0_im += g00_im * b0_re;
    B0_im += g01_re * b1_im;
    B0_im += g01_im * b1_re;
    B0_im += g02_re * b2_im;
    B0_im += g02_im * b2_re;
    
    // multiply row 1
    spinorFloat A1_re = 0;
    A1_re += g10_re * a0_re;
    A1_re -= g10_im * a0_im;
    A1_re += g11_re * a1_re;
    A1_re -= g11_im * a1_im;
    A1_re += g12_re * a2_re;
    A1_re -= g12_im * a2_im;
    spinorFloat A1_im = 0;
    A1_im += g10_re * a0_im;
    A1_im += g10_im * a0_re;
    A1_im += g11_re * a1_im;
    A1_im += g11_im * a1_re;
    A1_im += g12_re * a2_im;
    A1_im += g12_im * a2_re;
    spinorFloat B1_re = 0;
    B1_re += g10_re * b0_re;
    B1_re -= g10_im * b0_im;
    B1_re += g11_re * b1_re;
    B1_re -= g11_im * b1_im;
    B1_re += g12_re * b2_re;
    B1_re -= g12_im * b2_im;
    spinorFloat B1_im = 0;
    B1_im += g10_re * b0_im;
    B1_im += g10_im * b0_re;
    B1_im += g11_re * b1_im;
    B1_im += g11_im * b1_re;
    B1_im += g12_re * b2_im;
    B1_im += g12_im * b2_re;
    
    // multiply row 2
    spinorFloat A2_re = 0;
    A2_re += g20_re * a0_re;
    A2_re -= g20_im * a0_im;
    A2_re += g21_re * a1_re;
    A2_re -= g21_im * a1_im;
    A2_re += g22_re * a2_re;
    A2_re -= g22_im * a2_im;
    spinorFloat A2_im = 0;
    A2_im += g20_re * a0_im;
    A2_im += g20_im * a0_re;
    A2_im += g21_re * a1_im;
    A2_im += g21_im * a1_re;
    A2_im += g22_re * a2_im;
    A2_im += g22_im * a2_re;
    spinorFloat B2_re = 0;
    B2_re += g20_re * b0_re;
    B2_re -= g20_im * b0_im;
    B2_re += g21_re * b1_re;
    B2_re -= g21_im * b1_im;
    B2_re += g22_re * b2_re;
    B2_re -= g22_im * b2_im;
    spinorFloat B2_im = 0;
    B2_im += g20_re * b0_im;
    B2_im += g20_im * b0_re;
    B2_im += g21_re * b1_im;
    B2_im += g21_im * b1_re;
    B2_im += g22_re * b2_im;
    B2_im += g22_im * b2_re;
    
    o20_re += A0_re;
    o20_im += A0_im;
    o30_re += B0_re;
    o30_im += B0_im;
    
    o21_re += A1_re;
    o21_im += A1_im;
    o31_re += B1_re;
    o31_im += B1_im;
    
    o22_re += A2_re;
    o22_im += A2_im;
    o32_re += B2_re;
    o32_im += B2_im;
    
  }
}

if ( isActive(dim,3,-1,x1,x2,x3,x4,param.commDim,param.X) && x4==0 )
{
  // Projector P3+
  // 2 0 0 0 
  // 0 2 0 0 
  // 0 0 0 0 
  // 0 0 0 0 
  
  faceIndexFromCoords<1>(face_idx,x1,x2,x3,x4,3,Y);
  const int sp_idx = face_idx + param.ghostOffset[3];
#if (DD_PREC==2)
    sp_norm_idx = face_idx + param.ghostNormOffset[3];
#endif
  
  const int ga_idx = Vh+face_idx;
  
  if (gauge_fixed && ga_idx < X4X3X2X1hmX3X2X1h)
  {
    spinorFloat a0_re, a0_im;
    spinorFloat a1_re, a1_im;
    spinorFloat a2_re, a2_im;
    spinorFloat b0_re, b0_im;
    spinorFloat b1_re, b1_im;
    spinorFloat b2_re, b2_im;
    
    
    const int sp_stride_pad = ghostFace[3];
    const int t_proj_scale = TPROJSCALE;
    
    // read half spinor from device memory
    READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx, sp_norm_idx);
    
    a0_re = t_proj_scale*i00_re;  a0_im = t_proj_scale*i00_im;
    a1_re = t_proj_scale*i01_re;  a1_im = t_proj_scale*i01_im;
    a2_re = t_proj_scale*i02_re;  a2_im = t_proj_scale*i02_im;
    b0_re = t_proj_scale*i10_re;  b0_im = t_proj_scale*i10_im;
    b1_re = t_proj_scale*i11_re;  b1_im = t_proj_scale*i11_im;
    b2_re = t_proj_scale*i12_re;  b2_im = t_proj_scale*i12_im;
    
    
    // identity gauge matrix
    spinorFloat A0_re = a0_re; spinorFloat A0_im = a0_im;
    spinorFloat B0_re = b0_re; spinorFloat B0_im = b0_im;
    spinorFloat A1_re = a1_re; spinorFloat A1_im = a1_im;
    spinorFloat B1_re = b1_re; spinorFloat B1_im = b1_im;
    spinorFloat A2_re = a2_re; spinorFloat A2_im = a2_im;
    spinorFloat B2_re = b2_re; spinorFloat B2_im = b2_im;
    
    o00_re += A0_re;
    o00_im += A0_im;
    o10_re += B0_re;
    o10_im += B0_im;
    
    o01_re += A1_re;
    o01_im += A1_im;
    o11_re += B1_re;
    o11_im += B1_im;
    
    o02_re += A2_re;
    o02_im += A2_im;
    o12_re += B2_re;
    o12_im += B2_im;
    
  } else {
    spinorFloat a0_re, a0_im;
    spinorFloat a1_re, a1_im;
    spinorFloat a2_re, a2_im;
    spinorFloat b0_re, b0_im;
    spinorFloat b1_re, b1_im;
    spinorFloat b2_re, b2_im;
    
    
    const int sp_stride_pad = ghostFace[3];
    const int t_proj_scale = TPROJSCALE;
    
    // read half spinor from device memory
    READ_HALF_SPINOR(SPINORTEX, sp_stride_pad, sp_idx, sp_norm_idx);
    
    a0_re = t_proj_scale*i00_re;  a0_im = t_proj_scale*i00_im;
    a1_re = t_proj_scale*i01_re;  a1_im = t_proj_scale*i01_im;
    a2_re = t_proj_scale*i02_re;  a2_im = t_proj_scale*i02_im;
    b0_re = t_proj_scale*i10_re;  b0_im = t_proj_scale*i10_im;
    b1_re = t_proj_scale*i11_re;  b1_im = t_proj_scale*i11_im;
    b2_re = t_proj_scale*i12_re;  b2_im = t_proj_scale*i12_im;
    
    
    // read gauge matrix from device memory
    READ_GAUGE_MATRIX(G, GAUGE1TEX, 7, ga_idx, ga_stride);
    
    // reconstruct gauge matrix
    RECONSTRUCT_GAUGE_MATRIX(7);
    
    // multiply row 0
    spinorFloat A0_re = 0;
    A0_re += gT00_re * a0_re;
    A0_re -= gT00_im * a0_im;
    A0_re += gT01_re * a1_re;
    A0_re -= gT01_im * a1_im;
    A0_re += gT02_re * a2_re;
    A0_re -= gT02_im * a2_im;
    spinorFloat A0_im = 0;
    A0_im += gT00_re * a0_im;
    A0_im += gT00_im * a0_re;
    A0_im += gT01_re * a1_im;
    A0_im += gT01_im * a1_re;
    A0_im += gT02_re * a2_im;
    A0_im += gT02_im * a2_re;
    spinorFloat B0_re = 0;
    B0_re += gT00_re * b0_re;
    B0_re -= gT00_im * b0_im;
    B0_re += gT01_re * b1_re;
    B0_re -= gT01_im * b1_im;
    B0_re += gT02_re * b2_re;
    B0_re -= gT02_im * b2_im;
    spinorFloat B0_im = 0;
    B0_im += gT00_re * b0_im;
    B0_im += gT00_im * b0_re;
    B0_im += gT01_re * b1_im;
    B0_im += gT01_im * b1_re;
    B0_im += gT02_re * b2_im;
    B0_im += gT02_im * b2_re;
    
    // multiply row 1
    spinorFloat A1_re = 0;
    A1_re += gT10_re * a0_re;
    A1_re -= gT10_im * a0_im;
    A1_re += gT11_re * a1_re;
    A1_re -= gT11_im * a1_im;
    A1_re += gT12_re * a2_re;
    A1_re -= gT12_im * a2_im;
    spinorFloat A1_im = 0;
    A1_im += gT10_re * a0_im;
    A1_im += gT10_im * a0_re;
    A1_im += gT11_re * a1_im;
    A1_im += gT11_im * a1_re;
    A1_im += gT12_re * a2_im;
    A1_im += gT12_im * a2_re;
    spinorFloat B1_re = 0;
    B1_re += gT10_re * b0_re;
    B1_re -= gT10_im * b0_im;
    B1_re += gT11_re * b1_re;
    B1_re -= gT11_im * b1_im;
    B1_re += gT12_re * b2_re;
    B1_re -= gT12_im * b2_im;
    spinorFloat B1_im = 0;
    B1_im += gT10_re * b0_im;
    B1_im += gT10_im * b0_re;
    B1_im += gT11_re * b1_im;
    B1_im += gT11_im * b1_re;
    B1_im += gT12_re * b2_im;
    B1_im += gT12_im * b2_re;
    
    // multiply row 2
    spinorFloat A2_re = 0;
    A2_re += gT20_re * a0_re;
    A2_re -= gT20_im * a0_im;
    A2_re += gT21_re * a1_re;
    A2_re -= gT21_im * a1_im;
    A2_re += gT22_re * a2_re;
    A2_re -= gT22_im * a2_im;
    spinorFloat A2_im = 0;
    A2_im += gT20_re * a0_im;
    A2_im += gT20_im * a0_re;
    A2_im += gT21_re * a1_im;
    A2_im += gT21_im * a1_re;
    A2_im += gT22_re * a2_im;
    A2_im += gT22_im * a2_re;
    spinorFloat B2_re = 0;
    B2_re += gT20_re * b0_re;
    B2_re -= gT20_im * b0_im;
    B2_re += gT21_re * b1_re;
    B2_re -= gT21_im * b1_im;
    B2_re += gT22_re * b2_re;
    B2_re -= gT22_im * b2_im;
    spinorFloat B2_im = 0;
    B2_im += gT20_re * b0_im;
    B2_im += gT20_im * b0_re;
    B2_im += gT21_re * b1_im;
    B2_im += gT21_im * b1_re;
    B2_im += gT22_re * b2_im;
    B2_im += gT22_im * b2_re;
    
    o00_re += A0_re;
    o00_im += A0_im;
    o10_re += B0_re;
    o10_im += B0_im;
    
    o01_re += A1_re;
    o01_im += A1_im;
    o11_re += B1_re;
    o11_im += B1_im;
    
    o02_re += A2_re;
    o02_im += A2_im;
    o12_re += B2_re;
    o12_im += B2_im;
    
  }
}

{
#ifdef DSLASH_CLOVER
  
  // change to chiral basis
  {
    spinorFloat a00_re = -o10_re - o30_re;
    spinorFloat a00_im = -o10_im - o30_im;
    spinorFloat a10_re =  o00_re + o20_re;
    spinorFloat a10_im =  o00_im + o20_im;
    spinorFloat a20_re = -o10_re + o30_re;
    spinorFloat a20_im = -o10_im + o30_im;
    spinorFloat a30_re =  o00_re - o20_re;
    spinorFloat a30_im =  o00_im - o20_im;
    
    o00_re = a00_re;  o00_im = a00_im;
    o10_re = a10_re;  o10_im = a10_im;
    o20_re = a20_re;  o20_im = a20_im;
    o30_re = a30_re;  o30_im = a30_im;
  }
  
  {
    spinorFloat a01_re = -o11_re - o31_re;
    spinorFloat a01_im = -o11_im - o31_im;
    spinorFloat a11_re =  o01_re + o21_re;
    spinorFloat a11_im =  o01_im + o21_im;
    spinorFloat a21_re = -o11_re + o31_re;
    spinorFloat a21_im = -o11_im + o31_im;
    spinorFloat a31_re =  o01_re - o21_re;
    spinorFloat a31_im =  o01_im - o21_im;
    
    o01_re = a01_re;  o01_im = a01_im;
    o11_re = a11_re;  o11_im = a11_im;
    o21_re = a21_re;  o21_im = a21_im;
    o31_re = a31_re;  o31_im = a31_im;
  }
  
  {
    spinorFloat a02_re = -o12_re - o32_re;
    spinorFloat a02_im = -o12_im - o32_im;
    spinorFloat a12_re =  o02_re + o22_re;
    spinorFloat a12_im =  o02_im + o22_im;
    spinorFloat a22_re = -o12_re + o32_re;
    spinorFloat a22_im = -o12_im + o32_im;
    spinorFloat a32_re =  o02_re - o22_re;
    spinorFloat a32_im =  o02_im - o22_im;
    
    o02_re = a02_re;  o02_im = a02_im;
    o12_re = a12_re;  o12_im = a12_im;
    o22_re = a22_re;  o22_im = a22_im;
    o32_re = a32_re;  o32_im = a32_im;
  }
  
  // apply first chiral block
  {
    READ_CLOVER(CLOVERTEX, 0)
    
    spinorFloat a00_re = 0; spinorFloat a00_im = 0;
    spinorFloat a01_re = 0; spinorFloat a01_im = 0;
    spinorFloat a02_re = 0; spinorFloat a02_im = 0;
    spinorFloat a10_re = 0; spinorFloat a10_im = 0;
    spinorFloat a11_re = 0; spinorFloat a11_im = 0;
    spinorFloat a12_re = 0; spinorFloat a12_im = 0;
    
    a00_re += c00_00_re * o00_re;
    a00_im += c00_00_re * o00_im;
    a00_re += c00_01_re * o01_re;
    a00_re -= c00_01_im * o01_im;
    a00_im += c00_01_re * o01_im;
    a00_im += c00_01_im * o01_re;
    a00_re += c00_02_re * o02_re;
    a00_re -= c00_02_im * o02_im;
    a00_im += c00_02_re * o02_im;
    a00_im += c00_02_im * o02_re;
    a00_re += c00_10_re * o10_re;
    a00_re -= c00_10_im * o10_im;
    a00_im += c00_10_re * o10_im;
    a00_im += c00_10_im * o10_re;
    a00_re += c00_11_re * o11_re;
    a00_re -= c00_11_im * o11_im;
    a00_im += c00_11_re * o11_im;
    a00_im += c00_11_im * o11_re;
    a00_re += c00_12_re * o12_re;
    a00_re -= c00_12_im * o12_im;
    a00_im += c00_12_re * o12_im;
    a00_im += c00_12_im * o12_re;
    
    a01_re += c01_00_re * o00_re;
    a01_re -= c01_00_im * o00_im;
    a01_im += c01_00_re * o00_im;
    a01_im += c01_00_im * o00_re;
    a01_re += c01_01_re * o01_re;
    a01_im += c01_01_re * o01_im;
    a01_re += c01_02_re * o02_re;
    a01_re -= c01_02_im * o02_im;
    a01_im += c01_02_re * o02_im;
    a01_im += c01_02_im * o02_re;
    a01_re += c01_10_re * o10_re;
    a01_re -= c01_10_im * o10_im;
    a01_im += c01_10_re * o10_im;
    a01_im += c01_10_im * o10_re;
    a01_re += c01_11_re * o11_re;
    a01_re -= c01_11_im * o11_im;
    a01_im += c01_11_re * o11_im;
    a01_im += c01_11_im * o11_re;
    a01_re += c01_12_re * o12_re;
    a01_re -= c01_12_im * o12_im;
    a01_im += c01_12_re * o12_im;
    a01_im += c01_12_im * o12_re;
    
    a02_re += c02_00_re * o00_re;
    a02_re -= c02_00_im * o00_im;
    a02_im += c02_00_re * o00_im;
    a02_im += c02_00_im * o00_re;
    a02_re += c02_01_re * o01_re;
    a02_re -= c02_01_im * o01_im;
    a02_im += c02_01_re * o01_im;
    a02_im += c02_01_im * o01_re;
    a02_re += c02_02_re * o02_re;
    a02_im += c02_02_re * o02_im;
    a02_re += c02_10_re * o10_re;
    a02_re -= c02_10_im * o10_im;
    a02_im += c02_10_re * o10_im;
    a02_im += c02_10_im * o10_re;
    a02_re += c02_11_re * o11_re;
    a02_re -= c02_11_im * o11_im;
    a02_im += c02_11_re * o11_im;
    a02_im += c02_11_im * o11_re;
    a02_re += c02_12_re * o12_re;
    a02_re -= c02_12_im * o12_im;
    a02_im += c02_12_re * o12_im;
    a02_im += c02_12_im * o12_re;
    
    a10_re += c10_00_re * o00_re;
    a10_re -= c10_00_im * o00_im;
    a10_im += c10_00_re * o00_im;
    a10_im += c10_00_im * o00_re;
    a10_re += c10_01_re * o01_re;
    a10_re -= c10_01_im * o01_im;
    a10_im += c10_01_re * o01_im;
    a10_im += c10_01_im * o01_re;
    a10_re += c10_02_re * o02_re;
    a10_re -= c10_02_im * o02_im;
    a10_im += c10_02_re * o02_im;
    a10_im += c10_02_im * o02_re;
    a10_re += c10_10_re * o10_re;
    a10_im += c10_10_re * o10_im;
    a10_re += c10_11_re * o11_re;
    a10_re -= c10_11_im * o11_im;
    a10_im += c10_11_re * o11_im;
    a10_im += c10_11_im * o11_re;
    a10_re += c10_12_re * o12_re;
    a10_re -= c10_12_im * o12_im;
    a10_im += c10_12_re * o12_im;
    a10_im += c10_12_im * o12_re;
    
    a11_re += c11_00_re * o00_re;
    a11_re -= c11_00_im * o00_im;
    a11_im += c11_00_re * o00_im;
    a11_im += c11_00_im * o00_re;
    a11_re += c11_01_re * o01_re;
    a11_re -= c11_01_im * o01_im;
    a11_im += c11_01_re * o01_im;
    a11_im += c11_01_im * o01_re;
    a11_re += c11_02_re * o02_re;
    a11_re -= c11_02_im * o02_im;
    a11_im += c11_02_re * o02_im;
    a11_im += c11_02_im * o02_re;
    a11_re += c11_10_re * o10_re;
    a11_re -= c11_10_im * o10_im;
    a11_im += c11_10_re * o10_im;
    a11_im += c11_10_im * o10_re;
    a11_re += c11_11_re * o11_re;
    a11_im += c11_11_re * o11_im;
    a11_re += c11_12_re * o12_re;
    a11_re -= c11_12_im * o12_im;
    a11_im += c11_12_re * o12_im;
    a11_im += c11_12_im * o12_re;
    
    a12_re += c12_00_re * o00_re;
    a12_re -= c12_00_im * o00_im;
    a12_im += c12_00_re * o00_im;
    a12_im += c12_00_im * o00_re;
    a12_re += c12_01_re * o01_re;
    a12_re -= c12_01_im * o01_im;
    a12_im += c12_01_re * o01_im;
    a12_im += c12_01_im * o01_re;
    a12_re += c12_02_re * o02_re;
    a12_re -= c12_02_im * o02_im;
    a12_im += c12_02_re * o02_im;
    a12_im += c12_02_im * o02_re;
    a12_re += c12_10_re * o10_re;
    a12_re -= c12_10_im * o10_im;
    a12_im += c12_10_re * o10_im;
    a12_im += c12_10_im * o10_re;
    a12_re += c12_11_re * o11_re;
    a12_re -= c12_11_im * o11_im;
    a12_im += c12_11_re * o11_im;
    a12_im += c12_11_im * o11_re;
    a12_re += c12_12_re * o12_re;
    a12_im += c12_12_re * o12_im;
    
    o00_re = a00_re;  o00_im = a00_im;
    o01_re = a01_re;  o01_im = a01_im;
    o02_re = a02_re;  o02_im = a02_im;
    o10_re = a10_re;  o10_im = a10_im;
    o11_re = a11_re;  o11_im = a11_im;
    o12_re = a12_re;  o12_im = a12_im;
    
  }
  
  // apply second chiral block
  {
    READ_CLOVER(CLOVERTEX, 1)
    
    spinorFloat a20_re = 0; spinorFloat a20_im = 0;
    spinorFloat a21_re = 0; spinorFloat a21_im = 0;
    spinorFloat a22_re = 0; spinorFloat a22_im = 0;
    spinorFloat a30_re = 0; spinorFloat a30_im = 0;
    spinorFloat a31_re = 0; spinorFloat a31_im = 0;
    spinorFloat a32_re = 0; spinorFloat a32_im = 0;
    
    a20_re += c20_20_re * o20_re;
    a20_im += c20_20_re * o20_im;
    a20_re += c20_21_re * o21_re;
    a20_re -= c20_21_im * o21_im;
    a20_im += c20_21_re * o21_im;
    a20_im += c20_21_im * o21_re;
    a20_re += c20_22_re * o22_re;
    a20_re -= c20_22_im * o22_im;
    a20_im += c20_22_re * o22_im;
    a20_im += c20_22_im * o22_re;
    a20_re += c20_30_re * o30_re;
    a20_re -= c20_30_im * o30_im;
    a20_im += c20_30_re * o30_im;
    a20_im += c20_30_im * o30_re;
    a20_re += c20_31_re * o31_re;
    a20_re -= c20_31_im * o31_im;
    a20_im += c20_31_re * o31_im;
    a20_im += c20_31_im * o31_re;
    a20_re += c20_32_re * o32_re;
    a20_re -= c20_32_im * o32_im;
    a20_im += c20_32_re * o32_im;
    a20_im += c20_32_im * o32_re;
    
    a21_re += c21_20_re * o20_re;
    a21_re -= c21_20_im * o20_im;
    a21_im += c21_20_re * o20_im;
    a21_im += c21_20_im * o20_re;
    a21_re += c21_21_re * o21_re;
    a21_im += c21_21_re * o21_im;
    a21_re += c21_22_re * o22_re;
    a21_re -= c21_22_im * o22_im;
    a21_im += c21_22_re * o22_im;
    a21_im += c21_22_im * o22_re;
    a21_re += c21_30_re * o30_re;
    a21_re -= c21_30_im * o30_im;
    a21_im += c21_30_re * o30_im;
    a21_im += c21_30_im * o30_re;
    a21_re += c21_31_re * o31_re;
    a21_re -= c21_31_im * o31_im;
    a21_im += c21_31_re * o31_im;
    a21_im += c21_31_im * o31_re;
    a21_re += c21_32_re * o32_re;
    a21_re -= c21_32_im * o32_im;
    a21_im += c21_32_re * o32_im;
    a21_im += c21_32_im * o32_re;
    
    a22_re += c22_20_re * o20_re;
    a22_re -= c22_20_im * o20_im;
    a22_im += c22_20_re * o20_im;
    a22_im += c22_20_im * o20_re;
    a22_re += c22_21_re * o21_re;
    a22_re -= c22_21_im * o21_im;
    a22_im += c22_21_re * o21_im;
    a22_im += c22_21_im * o21_re;
    a22_re += c22_22_re * o22_re;
    a22_im += c22_22_re * o22_im;
    a22_re += c22_30_re * o30_re;
    a22_re -= c22_30_im * o30_im;
    a22_im += c22_30_re * o30_im;
    a22_im += c22_30_im * o30_re;
    a22_re += c22_31_re * o31_re;
    a22_re -= c22_31_im * o31_im;
    a22_im += c22_31_re * o31_im;
    a22_im += c22_31_im * o31_re;
    a22_re += c22_32_re * o32_re;
    a22_re -= c22_32_im * o32_im;
    a22_im += c22_32_re * o32_im;
    a22_im += c22_32_im * o32_re;
    
    a30_re += c30_20_re * o20_re;
    a30_re -= c30_20_im * o20_im;
    a30_im += c30_20_re * o20_im;
    a30_im += c30_20_im * o20_re;
    a30_re += c30_21_re * o21_re;
    a30_re -= c30_21_im * o21_im;
    a30_im += c30_21_re * o21_im;
    a30_im += c30_21_im * o21_re;
    a30_re += c30_22_re * o22_re;
    a30_re -= c30_22_im * o22_im;
    a30_im += c30_22_re * o22_im;
    a30_im += c30_22_im * o22_re;
    a30_re += c30_30_re * o30_re;
    a30_im += c30_30_re * o30_im;
    a30_re += c30_31_re * o31_re;
    a30_re -= c30_31_im * o31_im;
    a30_im += c30_31_re * o31_im;
    a30_im += c30_31_im * o31_re;
    a30_re += c30_32_re * o32_re;
    a30_re -= c30_32_im * o32_im;
    a30_im += c30_32_re * o32_im;
    a30_im += c30_32_im * o32_re;
    
    a31_re += c31_20_re * o20_re;
    a31_re -= c31_20_im * o20_im;
    a31_im += c31_20_re * o20_im;
    a31_im += c31_20_im * o20_re;
    a31_re += c31_21_re * o21_re;
    a31_re -= c31_21_im * o21_im;
    a31_im += c31_21_re * o21_im;
    a31_im += c31_21_im * o21_re;
    a31_re += c31_22_re * o22_re;
    a31_re -= c31_22_im * o22_im;
    a31_im += c31_22_re * o22_im;
    a31_im += c31_22_im * o22_re;
    a31_re += c31_30_re * o30_re;
    a31_re -= c31_30_im * o30_im;
    a31_im += c31_30_re * o30_im;
    a31_im += c31_30_im * o30_re;
    a31_re += c31_31_re * o31_re;
    a31_im += c31_31_re * o31_im;
    a31_re += c31_32_re * o32_re;
    a31_re -= c31_32_im * o32_im;
    a31_im += c31_32_re * o32_im;
    a31_im += c31_32_im * o32_re;
    
    a32_re += c32_20_re * o20_re;
    a32_re -= c32_20_im * o20_im;
    a32_im += c32_20_re * o20_im;
    a32_im += c32_20_im * o20_re;
    a32_re += c32_21_re * o21_re;
    a32_re -= c32_21_im * o21_im;
    a32_im += c32_21_re * o21_im;
    a32_im += c32_21_im * o21_re;
    a32_re += c32_22_re * o22_re;
    a32_re -= c32_22_im * o22_im;
    a32_im += c32_22_re * o22_im;
    a32_im += c32_22_im * o22_re;
    a32_re += c32_30_re * o30_re;
    a32_re -= c32_30_im * o30_im;
    a32_im += c32_30_re * o30_im;
    a32_im += c32_30_im * o30_re;
    a32_re += c32_31_re * o31_re;
    a32_re -= c32_31_im * o31_im;
    a32_im += c32_31_re * o31_im;
    a32_im += c32_31_im * o31_re;
    a32_re += c32_32_re * o32_re;
    a32_im += c32_32_re * o32_im;
    
    o20_re = a20_re;  o20_im = a20_im;
    o21_re = a21_re;  o21_im = a21_im;
    o22_re = a22_re;  o22_im = a22_im;
    o30_re = a30_re;  o30_im = a30_im;
    o31_re = a31_re;  o31_im = a31_im;
    o32_re = a32_re;  o32_im = a32_im;
    
  }
  
  // change back from chiral basis
  // (note: required factor of 1/2 is included in clover term normalization)
  {
    spinorFloat a00_re =  o10_re + o30_re;
    spinorFloat a00_im =  o10_im + o30_im;
    spinorFloat a10_re = -o00_re - o20_re;
    spinorFloat a10_im = -o00_im - o20_im;
    spinorFloat a20_re =  o10_re - o30_re;
    spinorFloat a20_im =  o10_im - o30_im;
    spinorFloat a30_re = -o00_re + o20_re;
    spinorFloat a30_im = -o00_im + o20_im;
    
    o00_re = a00_re;  o00_im = a00_im;
    o10_re = a10_re;  o10_im = a10_im;
    o20_re = a20_re;  o20_im = a20_im;
    o30_re = a30_re;  o30_im = a30_im;
  }
  
  {
    spinorFloat a01_re =  o11_re + o31_re;
    spinorFloat a01_im =  o11_im + o31_im;
    spinorFloat a11_re = -o01_re - o21_re;
    spinorFloat a11_im = -o01_im - o21_im;
    spinorFloat a21_re =  o11_re - o31_re;
    spinorFloat a21_im =  o11_im - o31_im;
    spinorFloat a31_re = -o01_re + o21_re;
    spinorFloat a31_im = -o01_im + o21_im;
    
    o01_re = a01_re;  o01_im = a01_im;
    o11_re = a11_re;  o11_im = a11_im;
    o21_re = a21_re;  o21_im = a21_im;
    o31_re = a31_re;  o31_im = a31_im;
  }
  
  {
    spinorFloat a02_re =  o12_re + o32_re;
    spinorFloat a02_im =  o12_im + o32_im;
    spinorFloat a12_re = -o02_re - o22_re;
    spinorFloat a12_im = -o02_im - o22_im;
    spinorFloat a22_re =  o12_re - o32_re;
    spinorFloat a22_im =  o12_im - o32_im;
    spinorFloat a32_re = -o02_re + o22_re;
    spinorFloat a32_im = -o02_im + o22_im;
    
    o02_re = a02_re;  o02_im = a02_im;
    o12_re = a12_re;  o12_im = a12_im;
    o22_re = a22_re;  o22_im = a22_im;
    o32_re = a32_re;  o32_im = a32_im;
  }
  
#endif // DSLASH_CLOVER
  
#ifdef DSLASH_XPAY
  
  READ_ACCUM(ACCUMTEX, param.sp_stride)
  
  o00_re = a*o00_re+acc00_re;
  o00_im = a*o00_im+acc00_im;
  o01_re = a*o01_re+acc01_re;
  o01_im = a*o01_im+acc01_im;
  o02_re = a*o02_re+acc02_re;
  o02_im = a*o02_im+acc02_im;
  o10_re = a*o10_re+acc10_re;
  o10_im = a*o10_im+acc10_im;
  o11_re = a*o11_re+acc11_re;
  o11_im = a*o11_im+acc11_im;
  o12_re = a*o12_re+acc12_re;
  o12_im = a*o12_im+acc12_im;
  o20_re = a*o20_re+acc20_re;
  o20_im = a*o20_im+acc20_im;
  o21_re = a*o21_re+acc21_re;
  o21_im = a*o21_im+acc21_im;
  o22_re = a*o22_re+acc22_re;
  o22_im = a*o22_im+acc22_im;
  o30_re = a*o30_re+acc30_re;
  o30_im = a*o30_im+acc30_im;
  o31_re = a*o31_re+acc31_re;
  o31_im = a*o31_im+acc31_im;
  o32_re = a*o32_re+acc32_re;
  o32_im = a*o32_im+acc32_im;
#endif // DSLASH_XPAY
}

// write spinor field back to device memory
WRITE_SPINOR(param.sp_stride);

// undefine to prevent warning when precision is changed
#undef spinorFloat
#undef WRITE_SPINOR_SHARED
#undef READ_SPINOR_SHARED
#undef SHARED_STRIDE

#undef g00_re
#undef g00_im
#undef g01_re
#undef g01_im
#undef g02_re
#undef g02_im
#undef g10_re
#undef g10_im
#undef g11_re
#undef g11_im
#undef g12_re
#undef g12_im
#undef g20_re
#undef g20_im
#undef g21_re
#undef g21_im
#undef g22_re
#undef g22_im

#undef i00_re
#undef i00_im
#undef i01_re
#undef i01_im
#undef i02_re
#undef i02_im
#undef i10_re
#undef i10_im
#undef i11_re
#undef i11_im
#undef i12_re
#undef i12_im
#undef i20_re
#undef i20_im
#undef i21_re
#undef i21_im
#undef i22_re
#undef i22_im
#undef i30_re
#undef i30_im
#undef i31_re
#undef i31_im
#undef i32_re
#undef i32_im

#undef acc00_re
#undef acc00_im
#undef acc01_re
#undef acc01_im
#undef acc02_re
#undef acc02_im
#undef acc10_re
#undef acc10_im
#undef acc11_re
#undef acc11_im
#undef acc12_re
#undef acc12_im
#undef acc20_re
#undef acc20_im
#undef acc21_re
#undef acc21_im
#undef acc22_re
#undef acc22_im
#undef acc30_re
#undef acc30_im
#undef acc31_re
#undef acc31_im
#undef acc32_re
#undef acc32_im

#undef c00_00_re
#undef c01_01_re
#undef c02_02_re
#undef c10_10_re
#undef c11_11_re
#undef c12_12_re
#undef c01_00_re
#undef c01_00_im
#undef c02_00_re
#undef c02_00_im
#undef c10_00_re
#undef c10_00_im
#undef c11_00_re
#undef c11_00_im
#undef c12_00_re
#undef c12_00_im
#undef c02_01_re
#undef c02_01_im
#undef c10_01_re
#undef c10_01_im
#undef c11_01_re
#undef c11_01_im
#undef c12_01_re
#undef c12_01_im
#undef c10_02_re
#undef c10_02_im
#undef c11_02_re
#undef c11_02_im
#undef c12_02_re
#undef c12_02_im
#undef c11_10_re
#undef c11_10_im
#undef c12_10_re
#undef c12_10_im
#undef c12_11_re
#undef c12_11_im

#undef o00_re
#undef o00_im
#undef o01_re
#undef o01_im
#undef o02_re
#undef o02_im
#undef o10_re
#undef o10_im
#undef o11_re
#undef o11_im
#undef o12_re
#undef o12_im
#undef o20_re
#undef o20_im
#undef o21_re
#undef o21_im
#undef o22_re
#undef o22_im
#undef o30_re
#undef o30_im
#undef o31_re
#undef o31_im
#undef o32_re
#undef o32_im

#undef VOLATILE

#endif // MULTI_GPU