; ModuleID = '/home/hakta/Documents/vector_mult/solution4/.autopilot/db/a.o.2.bc'
target datalayout = "e-p:64:64:64-i1:8:8-i8:8:8-i16:16:16-i32:32:32-i64:64:64-f32:32:32-f64:64:64-v64:64:64-v128:128:128-a0:0:64-s0:64:64-f80:128:128-n8:16:32:64-S128"
target triple = "x86_64-unknown-linux-gnu"

@vector_mult_str = internal unnamed_addr constant [12 x i8] c"vector_mult\00"
@mode5 = internal constant [10 x i8] c"s_axilite\00"
@mode3 = internal constant [10 x i8] c"s_axilite\00"
@mode = internal constant [10 x i8] c"s_axilite\00"
@memcpy_OC_tempB_OC_B = internal unnamed_addr constant [15 x i8] c"memcpy.tempB.B\00"
@memcpy_OC_tempA_OC_A = internal unnamed_addr constant [15 x i8] c"memcpy.tempA.A\00"
@memcpy_OC_result_OC_s = internal unnamed_addr constant [29 x i8] c"memcpy.result.tempResult.gep\00"
@burstwrite_OC_region = internal unnamed_addr constant [18 x i8] c"burstwrite.region\00"
@burstread_OC_region_s = internal unnamed_addr constant [17 x i8] c"burstread.region\00"
@bundle6 = internal constant [1 x i8] zeroinitializer
@bundle4 = internal constant [1 x i8] zeroinitializer
@bundle = internal constant [1 x i8] zeroinitializer
@p_str9 = internal unnamed_addr constant [1 x i8] zeroinitializer
@p_str7 = internal unnamed_addr constant [1 x i8] zeroinitializer
@p_str6 = internal unnamed_addr constant [1 x i8] zeroinitializer
@p_str5 = private unnamed_addr constant [17 x i8] c"vector_mult_loop\00", align 1
@p_str4 = private unnamed_addr constant [6 x i8] c"slave\00", align 1
@p_str3 = private unnamed_addr constant [6 x i8] c"m_axi\00", align 1
@p_str2 = private unnamed_addr constant [10 x i8] c"s_axilite\00", align 1
@p_str1 = private unnamed_addr constant [1 x i8] zeroinitializer, align 1

define void @vector_mult(i128* %gmem, i32 %A, i32 %B, i32 %result) {
  %result_read = call i32 @_ssdm_op_Read.s_axilite.i32(i32 %result)
  %B_read = call i32 @_ssdm_op_Read.s_axilite.i32(i32 %B)
  %A_read = call i32 @_ssdm_op_Read.s_axilite.i32(i32 %A)
  %result5 = call i28 @_ssdm_op_PartSelect.i28.i32.i32.i32(i32 %result_read, i32 4, i32 31)
  %tmp_s = zext i28 %result5 to i64
  %gmem_addr = getelementptr i128* %gmem, i64 %tmp_s
  %B3 = call i28 @_ssdm_op_PartSelect.i28.i32.i32.i32(i32 %B_read, i32 4, i32 31)
  %tmp_1 = zext i28 %B3 to i64
  %gmem_addr_1 = getelementptr i128* %gmem, i64 %tmp_1
  %A1 = call i28 @_ssdm_op_PartSelect.i28.i32.i32.i32(i32 %A_read, i32 4, i32 31)
  %tmp_2 = zext i28 %A1 to i64
  %gmem_addr_2 = getelementptr i128* %gmem, i64 %tmp_2
  call void (...)* @_ssdm_op_SpecBitsMap(i128* %gmem), !map !11
  call void (...)* @_ssdm_op_SpecTopModule([12 x i8]* @vector_mult_str) nounwind
  call void (...)* @_ssdm_op_SpecInterface(i32 0, [10 x i8]* @p_str2, i32 0, i32 0, [1 x i8]* @p_str1, i32 0, i32 0, [1 x i8]* @p_str1, [1 x i8]* @p_str1, [1 x i8]* @p_str1, i32 0, i32 0, i32 0, i32 0, [1 x i8]* @p_str1, [1 x i8]* @p_str1) nounwind
  call void (...)* @_ssdm_op_SpecInterface(i32 %result, [10 x i8]* @mode5, i32 0, i32 0, [1 x i8]* @p_str1, i32 0, i32 32, [1 x i8]* @bundle6, [6 x i8]* @p_str4, [1 x i8]* @p_str1, i32 16, i32 16, i32 16, i32 16, [1 x i8]* @p_str1, [1 x i8]* @p_str1)
  call void (...)* @_ssdm_op_SpecInterface(i32 %B, [10 x i8]* @mode3, i32 0, i32 0, [1 x i8]* @p_str1, i32 0, i32 32, [1 x i8]* @bundle4, [6 x i8]* @p_str4, [1 x i8]* @p_str1, i32 16, i32 16, i32 16, i32 16, [1 x i8]* @p_str1, [1 x i8]* @p_str1)
  call void (...)* @_ssdm_op_SpecInterface(i128* %gmem, [6 x i8]* @p_str3, i32 0, i32 0, [1 x i8]* @p_str1, i32 0, i32 32, [1 x i8]* @p_str1, [6 x i8]* @p_str4, [1 x i8]* @p_str1, i32 16, i32 16, i32 16, i32 16, [1 x i8]* @p_str1, [1 x i8]* @p_str1)
  call void (...)* @_ssdm_op_SpecInterface(i32 %A, [10 x i8]* @mode, i32 0, i32 0, [1 x i8]* @p_str1, i32 0, i32 32, [1 x i8]* @bundle, [6 x i8]* @p_str4, [1 x i8]* @p_str1, i32 16, i32 16, i32 16, i32 16, [1 x i8]* @p_str1, [1 x i8]* @p_str1)
  %gmem_addr_2_rd_req = call i1 @_ssdm_op_ReadReq.m_axi.i128P(i128* %gmem_addr_2, i32 2)
  br label %burst.rd.header.0

burst.rd.header.0:                                ; preds = %burst.rd.body.0_ifconv, %0
  %tempA_1_3 = phi i32 [ undef, %0 ], [ %tempA_1_3_2, %burst.rd.body.0_ifconv ]
  %tempA_1_2_s = phi i32 [ undef, %0 ], [ %tempA_1_3_6, %burst.rd.body.0_ifconv ]
  %tempA_1_1_s = phi i32 [ undef, %0 ], [ %tempA_1_3_10, %burst.rd.body.0_ifconv ]
  %tempA_1_3_7 = phi i32 [ undef, %0 ], [ %tempA_1_3_8, %burst.rd.body.0_ifconv ]
  %tempA_0_3 = phi i32 [ undef, %0 ], [ %tempA_0_3_2, %burst.rd.body.0_ifconv ]
  %tempA_0_2_s = phi i32 [ undef, %0 ], [ %tempA_0_3_6, %burst.rd.body.0_ifconv ]
  %tempA_0_1_s = phi i32 [ undef, %0 ], [ %tempA_0_3_10, %burst.rd.body.0_ifconv ]
  %tempA_0_3_7 = phi i32 [ undef, %0 ], [ %tempA_0_3_8, %burst.rd.body.0_ifconv ]
  %indvar = phi i4 [ 0, %0 ], [ %indvar_next_3, %burst.rd.body.0_ifconv ]
  %exitcond1 = icmp eq i4 %indvar, -8
  br i1 %exitcond1, label %burst.rd.header5.0.preheader, label %burst.rd.body.0_ifconv

burst.rd.header5.0.preheader:                     ; preds = %burst.rd.header.0
  %gmem_addr_1_rd_req = call i1 @_ssdm_op_ReadReq.m_axi.i128P(i128* %gmem_addr_1, i32 2)
  br label %burst.rd.header5.0

burst.rd.body.0_ifconv:                           ; preds = %burst.rd.header.0
  %empty = call i32 (...)* @_ssdm_op_SpecLoopTripCount(i64 2, i64 2, i64 2)
  %burstread_rbegin = call i32 (...)* @_ssdm_op_SpecRegionBegin([17 x i8]* @burstread_OC_region_s) nounwind
  call void (...)* @_ssdm_op_SpecPipeline(i32 1, i32 1, i32 1, i32 0, [1 x i8]* @p_str6)
  call void (...)* @_ssdm_op_SpecLoopName([15 x i8]* @memcpy_OC_tempA_OC_A)
  %gmem_addr_2_read = call i128 @_ssdm_op_Read.m_axi.i128P(i128* %gmem_addr_2)
  %tempA_0_3_11 = trunc i128 %gmem_addr_2_read to i32
  %newIndex106_t = call i2 @_ssdm_op_PartSelect.i2.i4.i32.i32(i4 %indvar, i32 1, i32 2)
  %sel_tmp = icmp eq i2 %newIndex106_t, -2
  %tempA_0_3_4 = select i1 %sel_tmp, i32 %tempA_0_3, i32 %tempA_0_3_11
  %sel_tmp2 = icmp eq i2 %newIndex106_t, 0
  %tempA_0_3_1 = select i1 %sel_tmp2, i32 %tempA_0_3, i32 %tempA_0_3_4
  %tempA_0_3_5 = select i1 %sel_tmp, i32 %tempA_0_3_11, i32 %tempA_0_2_s
  %tempA_0_3_6 = select i1 %sel_tmp2, i32 %tempA_0_2_s, i32 %tempA_0_3_5
  %tempA_0_3_8 = select i1 %sel_tmp2, i32 %tempA_0_3_11, i32 %tempA_0_3_7
  %burstread_rend_0 = call i32 (...)* @_ssdm_op_SpecRegionEnd([17 x i8]* @burstread_OC_region_s, i32 %burstread_rbegin) nounwind
  %tempA_1_3_11 = call i32 @_ssdm_op_PartSelect.i32.i128.i9.i9(i128 %gmem_addr_2_read, i9 32, i9 63)
  %tempA_1_3_4 = select i1 %sel_tmp, i32 %tempA_1_3, i32 %tempA_1_3_11
  %tempA_1_3_1 = select i1 %sel_tmp2, i32 %tempA_1_3, i32 %tempA_1_3_4
  %tempA_1_3_5 = select i1 %sel_tmp, i32 %tempA_1_3_11, i32 %tempA_1_2_s
  %tempA_1_3_6 = select i1 %sel_tmp2, i32 %tempA_1_2_s, i32 %tempA_1_3_5
  %tempA_1_3_8 = select i1 %sel_tmp2, i32 %tempA_1_3_11, i32 %tempA_1_3_7
  %tempA_0_1 = call i32 @_ssdm_op_PartSelect.i32.i128.i9.i9(i128 %gmem_addr_2_read, i9 64, i9 95)
  %newIndex96_t = or i2 %newIndex106_t, 1
  %cond = icmp eq i2 %newIndex96_t, 1
  %tempA_0_3_2 = select i1 %cond, i32 %tempA_0_3_1, i32 %tempA_0_1
  %tempA_0_3_10 = select i1 %cond, i32 %tempA_0_1, i32 %tempA_0_1_s
  %indvar_next_3 = add i4 4, %indvar
  %tempA_1_1 = call i32 @_ssdm_op_PartSelect.i32.i128.i9.i9(i128 %gmem_addr_2_read, i9 96, i9 127)
  %tempA_1_3_2 = select i1 %cond, i32 %tempA_1_3_1, i32 %tempA_1_1
  %tempA_1_3_10 = select i1 %cond, i32 %tempA_1_1, i32 %tempA_1_1_s
  br label %burst.rd.header.0

burst.rd.header5.0:                               ; preds = %burst.rd.header5.0.preheader, %burst.rd.body6.0_ifconv
  %tempB_1_3 = phi i32 [ %tempB_1_3_2, %burst.rd.body6.0_ifconv ], [ undef, %burst.rd.header5.0.preheader ]
  %tempB_1_2_s = phi i32 [ %tempB_1_3_6, %burst.rd.body6.0_ifconv ], [ undef, %burst.rd.header5.0.preheader ]
  %tempB_1_1_s = phi i32 [ %tempB_1_3_10, %burst.rd.body6.0_ifconv ], [ undef, %burst.rd.header5.0.preheader ]
  %tempB_1_3_7 = phi i32 [ %tempB_1_3_8, %burst.rd.body6.0_ifconv ], [ undef, %burst.rd.header5.0.preheader ]
  %tempB_0_3 = phi i32 [ %tempB_0_3_2, %burst.rd.body6.0_ifconv ], [ undef, %burst.rd.header5.0.preheader ]
  %tempB_0_2_s = phi i32 [ %tempB_0_3_6, %burst.rd.body6.0_ifconv ], [ undef, %burst.rd.header5.0.preheader ]
  %tempB_0_1_s = phi i32 [ %tempB_0_3_10, %burst.rd.body6.0_ifconv ], [ undef, %burst.rd.header5.0.preheader ]
  %tempB_0_3_7 = phi i32 [ %tempB_0_3_8, %burst.rd.body6.0_ifconv ], [ undef, %burst.rd.header5.0.preheader ]
  %indvar7 = phi i4 [ %indvar_next8_3, %burst.rd.body6.0_ifconv ], [ 0, %burst.rd.header5.0.preheader ]
  %exitcond9 = icmp eq i4 %indvar7, -8
  br i1 %exitcond9, label %burst.rd.end4.0.preheader, label %burst.rd.body6.0_ifconv

burst.rd.end4.0.preheader:                        ; preds = %burst.rd.header5.0
  br label %burst.rd.end4.0

burst.rd.body6.0_ifconv:                          ; preds = %burst.rd.header5.0
  %empty_8 = call i32 (...)* @_ssdm_op_SpecLoopTripCount(i64 2, i64 2, i64 2)
  %burstread_rbegin1 = call i32 (...)* @_ssdm_op_SpecRegionBegin([17 x i8]* @burstread_OC_region_s) nounwind
  call void (...)* @_ssdm_op_SpecPipeline(i32 1, i32 1, i32 1, i32 0, [1 x i8]* @p_str7)
  call void (...)* @_ssdm_op_SpecLoopName([15 x i8]* @memcpy_OC_tempB_OC_B)
  %gmem_addr_1_read = call i128 @_ssdm_op_Read.m_axi.i128P(i128* %gmem_addr_1)
  %tempB_0_3_11 = trunc i128 %gmem_addr_1_read to i32
  %newIndex66_t = call i2 @_ssdm_op_PartSelect.i2.i4.i32.i32(i4 %indvar7, i32 1, i32 2)
  %sel_tmp6 = icmp eq i2 %newIndex66_t, -2
  %tempB_0_3_4 = select i1 %sel_tmp6, i32 %tempB_0_3, i32 %tempB_0_3_11
  %sel_tmp8 = icmp eq i2 %newIndex66_t, 0
  %tempB_0_3_1 = select i1 %sel_tmp8, i32 %tempB_0_3, i32 %tempB_0_3_4
  %tempB_0_3_5 = select i1 %sel_tmp6, i32 %tempB_0_3_11, i32 %tempB_0_2_s
  %tempB_0_3_6 = select i1 %sel_tmp8, i32 %tempB_0_2_s, i32 %tempB_0_3_5
  %tempB_0_3_8 = select i1 %sel_tmp8, i32 %tempB_0_3_11, i32 %tempB_0_3_7
  %burstread_rend12_0 = call i32 (...)* @_ssdm_op_SpecRegionEnd([17 x i8]* @burstread_OC_region_s, i32 %burstread_rbegin1) nounwind
  %tempB_1_3_11 = call i32 @_ssdm_op_PartSelect.i32.i128.i9.i9(i128 %gmem_addr_1_read, i9 32, i9 63)
  %tempB_1_3_4 = select i1 %sel_tmp6, i32 %tempB_1_3, i32 %tempB_1_3_11
  %tempB_1_3_1 = select i1 %sel_tmp8, i32 %tempB_1_3, i32 %tempB_1_3_4
  %tempB_1_3_5 = select i1 %sel_tmp6, i32 %tempB_1_3_11, i32 %tempB_1_2_s
  %tempB_1_3_6 = select i1 %sel_tmp8, i32 %tempB_1_2_s, i32 %tempB_1_3_5
  %tempB_1_3_8 = select i1 %sel_tmp8, i32 %tempB_1_3_11, i32 %tempB_1_3_7
  %tempB_0_1 = call i32 @_ssdm_op_PartSelect.i32.i128.i9.i9(i128 %gmem_addr_1_read, i9 64, i9 95)
  %newIndex56_t = or i2 %newIndex66_t, 1
  %cond1 = icmp eq i2 %newIndex56_t, 1
  %tempB_0_3_2 = select i1 %cond1, i32 %tempB_0_3_1, i32 %tempB_0_1
  %tempB_0_3_10 = select i1 %cond1, i32 %tempB_0_1, i32 %tempB_0_1_s
  %indvar_next8_3 = add i4 4, %indvar7
  %tempB_1_1 = call i32 @_ssdm_op_PartSelect.i32.i128.i9.i9(i128 %gmem_addr_1_read, i9 96, i9 127)
  %tempB_1_3_2 = select i1 %cond1, i32 %tempB_1_3_1, i32 %tempB_1_1
  %tempB_1_3_10 = select i1 %cond1, i32 %tempB_1_1, i32 %tempB_1_1_s
  br label %burst.rd.header5.0

burst.rd.end4.0:                                  ; preds = %burst.rd.end4.0.preheader, %burst.rd.end4.1_ifconv
  %tempResult_1_3 = phi i32 [ %tempResult_1_3_2, %burst.rd.end4.1_ifconv ], [ undef, %burst.rd.end4.0.preheader ]
  %tempResult_1_2_s = phi i32 [ %tempResult_1_3_6, %burst.rd.end4.1_ifconv ], [ undef, %burst.rd.end4.0.preheader ]
  %tempResult_1_1_s = phi i32 [ %tempResult_1_3_10, %burst.rd.end4.1_ifconv ], [ undef, %burst.rd.end4.0.preheader ]
  %tempResult_1_3_7 = phi i32 [ %tempResult_1_3_8, %burst.rd.end4.1_ifconv ], [ undef, %burst.rd.end4.0.preheader ]
  %tempResult_0_3 = phi i32 [ %tempResult_0_3_2, %burst.rd.end4.1_ifconv ], [ undef, %burst.rd.end4.0.preheader ]
  %tempResult_0_2_s = phi i32 [ %tempResult_0_3_6, %burst.rd.end4.1_ifconv ], [ undef, %burst.rd.end4.0.preheader ]
  %tempResult_0_1_s = phi i32 [ %tempResult_0_3_10, %burst.rd.end4.1_ifconv ], [ undef, %burst.rd.end4.0.preheader ]
  %tempResult_0_3_7 = phi i32 [ %tempResult_0_3_8, %burst.rd.end4.1_ifconv ], [ undef, %burst.rd.end4.0.preheader ]
  %i = phi i4 [ %i_1_3, %burst.rd.end4.1_ifconv ], [ 0, %burst.rd.end4.0.preheader ]
  %exitcond = icmp eq i4 %i, -8
  br i1 %exitcond, label %burst.wr.header.0.preheader, label %burst.rd.end4.1_ifconv

burst.wr.header.0.preheader:                      ; preds = %burst.rd.end4.0
  %gmem_addr_wr_req = call i1 @_ssdm_op_WriteReq.m_axi.i128P(i128* %gmem_addr, i32 2)
  br label %burst.wr.header.0

burst.rd.end4.1_ifconv:                           ; preds = %burst.rd.end4.0
  %empty_9 = call i32 (...)* @_ssdm_op_SpecLoopTripCount(i64 2, i64 2, i64 2) nounwind
  call void (...)* @_ssdm_op_SpecLoopName([17 x i8]* @p_str5) nounwind
  %tmp_8 = call i32 (...)* @_ssdm_op_SpecRegionBegin([17 x i8]* @p_str5) nounwind
  call void (...)* @_ssdm_op_SpecPipeline(i32 -1, i32 1, i32 1, i32 0, [1 x i8]* @p_str1) nounwind
  %newIndex126_t = call i2 @_ssdm_op_PartSelect.i2.i4.i32.i32(i4 %i, i32 1, i32 2)
  %tmp = call i32 @_ssdm_op_Mux.ap_auto.4i32.i2(i32 %tempA_0_3_7, i32 %tempA_0_1_s, i32 %tempA_0_2_s, i32 %tempA_0_3, i2 %newIndex126_t)
  %tmp_3 = call i32 @_ssdm_op_Mux.ap_auto.4i32.i2(i32 %tempB_0_3_7, i32 %tempB_0_1_s, i32 %tempB_0_2_s, i32 %tempB_0_3, i2 %newIndex126_t)
  %tempResult_0_3_11 = mul nsw i32 %tmp_3, %tmp
  %sel_tmp1 = icmp eq i2 %newIndex126_t, -2
  %tempResult_0_3_4 = select i1 %sel_tmp1, i32 %tempResult_0_3, i32 %tempResult_0_3_11
  %sel_tmp3 = icmp eq i2 %newIndex126_t, 0
  %tempResult_0_3_1 = select i1 %sel_tmp3, i32 %tempResult_0_3, i32 %tempResult_0_3_4
  %tempResult_0_3_5 = select i1 %sel_tmp1, i32 %tempResult_0_3_11, i32 %tempResult_0_2_s
  %tempResult_0_3_6 = select i1 %sel_tmp3, i32 %tempResult_0_2_s, i32 %tempResult_0_3_5
  %tempResult_0_3_8 = select i1 %sel_tmp3, i32 %tempResult_0_3_11, i32 %tempResult_0_3_7
  %empty_10 = call i32 (...)* @_ssdm_op_SpecRegionEnd([17 x i8]* @p_str5, i32 %tmp_8) nounwind
  %tmp_4 = call i32 @_ssdm_op_Mux.ap_auto.4i32.i2(i32 %tempA_1_3_7, i32 %tempA_1_1_s, i32 %tempA_1_2_s, i32 %tempA_1_3, i2 %newIndex126_t)
  %tmp_7 = call i32 @_ssdm_op_Mux.ap_auto.4i32.i2(i32 %tempB_1_3_7, i32 %tempB_1_1_s, i32 %tempB_1_2_s, i32 %tempB_1_3, i2 %newIndex126_t)
  %tempResult_1_3_11 = mul nsw i32 %tmp_7, %tmp_4
  %tempResult_1_3_4 = select i1 %sel_tmp1, i32 %tempResult_1_3, i32 %tempResult_1_3_11
  %tempResult_1_3_1 = select i1 %sel_tmp3, i32 %tempResult_1_3, i32 %tempResult_1_3_4
  %tempResult_1_3_5 = select i1 %sel_tmp1, i32 %tempResult_1_3_11, i32 %tempResult_1_2_s
  %tempResult_1_3_6 = select i1 %sel_tmp3, i32 %tempResult_1_2_s, i32 %tempResult_1_3_5
  %tempResult_1_3_8 = select i1 %sel_tmp3, i32 %tempResult_1_3_11, i32 %tempResult_1_3_7
  %newIndex116_t = or i2 %newIndex126_t, 1
  %tmp_9 = call i32 @_ssdm_op_Mux.ap_auto.4i32.i2(i32 %tempA_0_3_7, i32 %tempA_0_1_s, i32 %tempA_0_2_s, i32 %tempA_0_3, i2 %newIndex116_t)
  %tmp_5 = call i32 @_ssdm_op_Mux.ap_auto.4i32.i2(i32 %tempB_0_3_7, i32 %tempB_0_1_s, i32 %tempB_0_2_s, i32 %tempB_0_3, i2 %newIndex116_t)
  %tempResult_0_1 = mul nsw i32 %tmp_5, %tmp_9
  %cond2 = icmp eq i2 %newIndex116_t, 1
  %tempResult_0_3_2 = select i1 %cond2, i32 %tempResult_0_3_1, i32 %tempResult_0_1
  %tempResult_0_3_10 = select i1 %cond2, i32 %tempResult_0_1, i32 %tempResult_0_1_s
  %tmp_6 = call i32 @_ssdm_op_Mux.ap_auto.4i32.i2(i32 %tempA_1_3_7, i32 %tempA_1_1_s, i32 %tempA_1_2_s, i32 %tempA_1_3, i2 %newIndex116_t)
  %tmp_10 = call i32 @_ssdm_op_Mux.ap_auto.4i32.i2(i32 %tempB_1_3_7, i32 %tempB_1_1_s, i32 %tempB_1_2_s, i32 %tempB_1_3, i2 %newIndex116_t)
  %tempResult_1_1 = mul nsw i32 %tmp_10, %tmp_6
  %tempResult_1_3_2 = select i1 %cond2, i32 %tempResult_1_3_1, i32 %tempResult_1_1
  %tempResult_1_3_10 = select i1 %cond2, i32 %tempResult_1_1, i32 %tempResult_1_1_s
  %i_1_3 = add i4 %i, 4
  br label %burst.rd.end4.0

burst.wr.header.0:                                ; preds = %burst.wr.header.0.preheader, %burst.wr.body.0
  %indvar1 = phi i4 [ %indvar_next1_3, %burst.wr.body.0 ], [ 0, %burst.wr.header.0.preheader ]
  %exitcond2 = icmp eq i4 %indvar1, -8
  br i1 %exitcond2, label %memcpy.tail, label %burst.wr.body.0

burst.wr.body.0:                                  ; preds = %burst.wr.header.0
  %empty_11 = call i32 (...)* @_ssdm_op_SpecLoopTripCount(i64 2, i64 2, i64 2) nounwind
  %burstwrite_rbegin = call i32 (...)* @_ssdm_op_SpecRegionBegin([18 x i8]* @burstwrite_OC_region) nounwind
  call void (...)* @_ssdm_op_SpecPipeline(i32 1, i32 1, i32 1, i32 0, [1 x i8]* @p_str9)
  call void (...)* @_ssdm_op_SpecLoopName([29 x i8]* @memcpy_OC_result_OC_s)
  %newIndex26_t = call i2 @_ssdm_op_PartSelect.i2.i4.i32.i32(i4 %indvar1, i32 1, i32 2)
  %tmp_12 = call i32 @_ssdm_op_Mux.ap_auto.4i32.i2(i32 %tempResult_0_3_7, i32 %tempResult_0_1_s, i32 %tempResult_0_2_s, i32 %tempResult_0_3, i2 %newIndex26_t)
  %burstwrite_rend_0 = call i32 (...)* @_ssdm_op_SpecRegionEnd([18 x i8]* @burstwrite_OC_region, i32 %burstwrite_rbegin) nounwind
  %tmp_13 = call i32 @_ssdm_op_Mux.ap_auto.4i32.i2(i32 %tempResult_1_3_7, i32 %tempResult_1_1_s, i32 %tempResult_1_2_s, i32 %tempResult_1_3, i2 %newIndex26_t)
  %newIndex16_t = or i2 %newIndex26_t, 1
  %tmp_14 = call i32 @_ssdm_op_Mux.ap_auto.4i32.i2(i32 %tempResult_0_3_7, i32 %tempResult_0_1_s, i32 %tempResult_0_2_s, i32 %tempResult_0_3, i2 %newIndex16_t)
  %indvar_next1_3 = add i4 %indvar1, 4
  %tmp_15 = call i32 @_ssdm_op_Mux.ap_auto.4i32.i2(i32 %tempResult_1_3_7, i32 %tempResult_1_1_s, i32 %tempResult_1_2_s, i32 %tempResult_1_3, i2 %newIndex16_t)
  %tmp_11 = call i128 @_ssdm_op_BitConcatenate.i128.i32.i32.i32.i32(i32 %tmp_15, i32 %tmp_14, i32 %tmp_13, i32 %tmp_12)
  call void @_ssdm_op_Write.m_axi.i128P(i128* %gmem_addr, i128 %tmp_11, i16 -1)
  br label %burst.wr.header.0

memcpy.tail:                                      ; preds = %burst.wr.header.0
  %gmem_addr_wr_resp = call i1 @_ssdm_op_WriteResp.m_axi.i128P(i128* %gmem_addr)
  ret void
}

declare i4 @llvm.part.select.i4(i4, i32, i32) nounwind readnone

declare i32 @llvm.part.select.i32(i32, i32, i32) nounwind readnone

declare i128 @llvm.part.select.i128(i128, i32, i32) nounwind readnone

declare void @llvm.dbg.value(metadata, i64, metadata) nounwind readnone

define weak i1 @_ssdm_op_WriteResp.m_axi.i128P(i128*) {
entry:
  ret i1 true
}

define weak i1 @_ssdm_op_WriteReq.m_axi.i128P(i128*, i32) {
entry:
  ret i1 true
}

define weak void @_ssdm_op_Write.m_axi.i128P(i128*, i128, i16) {
entry:
  ret void
}

define weak void @_ssdm_op_SpecTopModule(...) {
entry:
  ret void
}

define weak i32 @_ssdm_op_SpecRegionEnd(...) {
entry:
  ret i32 0
}

define weak i32 @_ssdm_op_SpecRegionBegin(...) {
entry:
  ret i32 0
}

define weak void @_ssdm_op_SpecPipeline(...) nounwind {
entry:
  ret void
}

define weak i32 @_ssdm_op_SpecLoopTripCount(...) {
entry:
  ret i32 0
}

define weak void @_ssdm_op_SpecLoopName(...) nounwind {
entry:
  ret void
}

define weak void @_ssdm_op_SpecInterface(...) nounwind {
entry:
  ret void
}

define weak void @_ssdm_op_SpecBitsMap(...) {
entry:
  ret void
}

define weak i1 @_ssdm_op_ReadReq.m_axi.i128P(i128*, i32) {
entry:
  ret i1 true
}

define weak i32 @_ssdm_op_Read.s_axilite.i32(i32) {
entry:
  ret i32 %0
}

define weak i128 @_ssdm_op_Read.m_axi.i128P(i128*) {
entry:
  %empty = load i128* %0
  ret i128 %empty
}

define weak i32 @_ssdm_op_PartSelect.i32.i128.i9.i9(i128, i9, i9) nounwind readnone {
entry:
  %empty = zext i9 %1 to i32
  %empty_12 = zext i9 %2 to i32
  %empty_13 = call i128 @llvm.part.select.i128(i128 %0, i32 %empty, i32 %empty_12)
  %empty_14 = trunc i128 %empty_13 to i32
  ret i32 %empty_14
}

declare i32 @_ssdm_op_PartSelect.i32.i128.i32.i32(i128, i32, i32) nounwind readnone

define weak i28 @_ssdm_op_PartSelect.i28.i32.i32.i32(i32, i32, i32) nounwind readnone {
entry:
  %empty = call i32 @llvm.part.select.i32(i32 %0, i32 %1, i32 %2)
  %empty_15 = trunc i32 %empty to i28
  ret i28 %empty_15
}

define weak i2 @_ssdm_op_PartSelect.i2.i4.i32.i32(i4, i32, i32) nounwind readnone {
entry:
  %empty = call i4 @llvm.part.select.i4(i4 %0, i32 %1, i32 %2)
  %empty_16 = trunc i4 %empty to i2
  ret i2 %empty_16
}

define weak i32 @_ssdm_op_Mux.ap_auto.4i32.i2(i32, i32, i32, i32, i2) {
entry:
  switch i2 %4, label %case3 [
    i2 0, label %case0
    i2 1, label %case1
    i2 -2, label %case2
  ]

case0:                                            ; preds = %case3, %case2, %case1, %entry
  %merge = phi i32 [ %0, %entry ], [ %1, %case1 ], [ %2, %case2 ], [ %3, %case3 ]
  ret i32 %merge

case1:                                            ; preds = %entry
  br label %case0

case2:                                            ; preds = %entry
  br label %case0

case3:                                            ; preds = %entry
  br label %case0
}

define weak i128 @_ssdm_op_BitConcatenate.i128.i32.i32.i32.i32(i32, i32, i32, i32) nounwind readnone {
entry:
  %empty = zext i32 %2 to i64
  %empty_17 = zext i32 %3 to i64
  %empty_18 = shl i64 %empty, 32
  %empty_19 = or i64 %empty_18, %empty_17
  %empty_20 = zext i32 %1 to i96
  %empty_21 = zext i64 %empty_19 to i96
  %empty_22 = shl i96 %empty_20, 64
  %empty_23 = or i96 %empty_22, %empty_21
  %empty_24 = zext i32 %0 to i128
  %empty_25 = zext i96 %empty_23 to i128
  %empty_26 = shl i128 %empty_24, 96
  %empty_27 = or i128 %empty_26, %empty_25
  ret i128 %empty_27
}

!opencl.kernels = !{!0}
!hls.encrypted.func = !{}
!llvm.map.gv = !{}
!axi4.master.portmap = !{!7}
!axi4.slave.bundlemap = !{!8, !9, !10}

!0 = metadata !{null, metadata !1, metadata !2, metadata !3, metadata !4, metadata !5, metadata !6}
!1 = metadata !{metadata !"kernel_arg_addr_space", i32 1, i32 1, i32 1}
!2 = metadata !{metadata !"kernel_arg_access_qual", metadata !"none", metadata !"none", metadata !"none"}
!3 = metadata !{metadata !"kernel_arg_type", metadata !"int*", metadata !"int*", metadata !"int*"}
!4 = metadata !{metadata !"kernel_arg_type_qual", metadata !"", metadata !"", metadata !""}
!5 = metadata !{metadata !"kernel_arg_name", metadata !"A", metadata !"B", metadata !"result"}
!6 = metadata !{metadata !"reqd_work_group_size", i32 1, i32 1, i32 1}
!7 = metadata !{metadata !"gmem", metadata !"A", metadata !"READONLY", metadata !"B", metadata !"READONLY", metadata !"result", metadata !"WRITEONLY"}
!8 = metadata !{metadata !"A", metadata !""}
!9 = metadata !{metadata !"B", metadata !""}
!10 = metadata !{metadata !"result", metadata !""}
!11 = metadata !{metadata !12, metadata !19, metadata !26, metadata !33}
!12 = metadata !{i32 0, i32 31, metadata !13}
!13 = metadata !{metadata !14, metadata !17, metadata !18}
!14 = metadata !{metadata !"A", metadata !15, metadata !"int", i32 0, i32 31}
!15 = metadata !{metadata !16}
!16 = metadata !{i32 0, i32 4, i32 4}
!17 = metadata !{metadata !"B", metadata !15, metadata !"int", i32 0, i32 31}
!18 = metadata !{metadata !"result", metadata !15, metadata !"int", i32 0, i32 31}
!19 = metadata !{i32 32, i32 63, metadata !20}
!20 = metadata !{metadata !21, metadata !24, metadata !25}
!21 = metadata !{metadata !"A", metadata !22, metadata !"int", i32 0, i32 31}
!22 = metadata !{metadata !23}
!23 = metadata !{i32 1, i32 5, i32 4}
!24 = metadata !{metadata !"B", metadata !22, metadata !"int", i32 0, i32 31}
!25 = metadata !{metadata !"result", metadata !22, metadata !"int", i32 0, i32 31}
!26 = metadata !{i32 64, i32 95, metadata !27}
!27 = metadata !{metadata !28, metadata !31, metadata !32}
!28 = metadata !{metadata !"A", metadata !29, metadata !"int", i32 0, i32 31}
!29 = metadata !{metadata !30}
!30 = metadata !{i32 2, i32 6, i32 4}
!31 = metadata !{metadata !"B", metadata !29, metadata !"int", i32 0, i32 31}
!32 = metadata !{metadata !"result", metadata !29, metadata !"int", i32 0, i32 31}
!33 = metadata !{i32 96, i32 127, metadata !34}
!34 = metadata !{metadata !35, metadata !38, metadata !39}
!35 = metadata !{metadata !"A", metadata !36, metadata !"int", i32 0, i32 31}
!36 = metadata !{metadata !37}
!37 = metadata !{i32 3, i32 7, i32 4}
!38 = metadata !{metadata !"B", metadata !36, metadata !"int", i32 0, i32 31}
!39 = metadata !{metadata !"result", metadata !36, metadata !"int", i32 0, i32 31}