diff --git a/gcc/config/aarch64/aarch64-simd.md b/gcc/config/aarch64/aarch64-simd.md
index 7f212bf37cd2c120dceb7efa733c9fa76226f029..e1ecb88634f93d380ef534093ea6599dc7278108 100644
--- a/gcc/config/aarch64/aarch64-simd.md
+++ b/gcc/config/aarch64/aarch64-simd.md
@@ -4867,60 +4867,27 @@ (define_expand "aarch64_<sur><addsub>hn2<mode>"
   }
 )
 
-;; div optimizations using narrowings
-;; we can do the division e.g. shorts by 255 faster by calculating it as
-;; (x + ((x + 257) >> 8)) >> 8 assuming the operation is done in
-;; double the precision of x.
-;;
-;; If we imagine a short as being composed of two blocks of bytes then
-;; adding 257 or 0b0000_0001_0000_0001 to the number is equivalent to
-;; adding 1 to each sub component:
-;;
-;;      short value of 16-bits
-;; ┌──────────────┬────────────────┐
-;; │              │                │
-;; └──────────────┴────────────────┘
-;;   8-bit part1 ▲  8-bit part2   ▲
-;;               │                │
-;;               │                │
-;;              +1               +1
-;;
-;; after the first addition, we have to shift right by 8, and narrow the
-;; results back to a byte.  Remember that the addition must be done in
-;; double the precision of the input.  Since 8 is half the size of a short
-;; we can use a narrowing halfing instruction in AArch64, addhn which also
-;; does the addition in a wider precision and narrows back to a byte.  The
-;; shift itself is implicit in the operation as it writes back only the top
-;; half of the result. i.e. bits 2*esize-1:esize.
-;;
-;; Since we have narrowed the result of the first part back to a byte, for
-;; the second addition we can use a widening addition, uaddw.
-;;
-;; For the final shift, since it's unsigned arithmetic we emit an ushr by 8.
-;;
-;; The shift is later optimized by combine to a uzp2 with movi #0.
-(define_expand "@aarch64_bitmask_udiv<mode>3"
-  [(match_operand:VQN 0 "register_operand")
-   (match_operand:VQN 1 "register_operand")
-   (match_operand:VQN 2 "immediate_operand")]
+;; Optimize ((a + b) >> n) + c where n is half the bitsize of the vector
+(define_insn_and_split "*bitmask_shift_plus<mode>"
+  [(set (match_operand:VQN 0 "register_operand" "=&w")
+	(plus:VQN
+	  (lshiftrt:VQN
+	    (plus:VQN (match_operand:VQN 1 "register_operand" "w")
+		      (match_operand:VQN 2 "register_operand" "w"))
+	    (match_operand:VQN 3 "aarch64_simd_shift_imm_vec_exact_top" "Dr"))
+	  (match_operand:VQN 4 "register_operand" "w")))]
   "TARGET_SIMD"
+  "#"
+  "&& true"
+  [(const_int 0)]
 {
-  unsigned HOST_WIDE_INT size
-    = (1ULL << GET_MODE_UNIT_BITSIZE (<VNARROWQ>mode)) - 1;
-  rtx elt = unwrap_const_vec_duplicate (operands[2]);
-  if (!CONST_INT_P (elt) || UINTVAL (elt) != size)
-    FAIL;
-
-  rtx addend = gen_reg_rtx (<MODE>mode);
-  rtx val = aarch64_simd_gen_const_vector_dup (<VNARROWQ2>mode, 1);
-  emit_move_insn (addend, lowpart_subreg (<MODE>mode, val, <VNARROWQ2>mode));
-  rtx tmp1 = gen_reg_rtx (<VNARROWQ>mode);
-  rtx tmp2 = gen_reg_rtx (<MODE>mode);
-  emit_insn (gen_aarch64_addhn<mode> (tmp1, operands[1], addend));
-  unsigned bitsize = GET_MODE_UNIT_BITSIZE (<VNARROWQ>mode);
-  rtx shift_vector = aarch64_simd_gen_const_vector_dup (<MODE>mode, bitsize);
-  emit_insn (gen_aarch64_uaddw<Vnarrowq> (tmp2, operands[1], tmp1));
-  emit_insn (gen_aarch64_simd_lshr<mode> (operands[0], tmp2, shift_vector));
+  rtx tmp;
+  if (can_create_pseudo_p ())
+    tmp = gen_reg_rtx (<VNARROWQ>mode);
+  else
+    tmp = gen_rtx_REG (<VNARROWQ>mode, REGNO (operands[0]));
+  emit_insn (gen_aarch64_addhn<mode> (tmp, operands[1], operands[2]));
+  emit_insn (gen_aarch64_uaddw<Vnarrowq> (operands[0], operands[4], tmp));
   DONE;
 })
 
diff --git a/gcc/config/aarch64/aarch64-sve2.md b/gcc/config/aarch64/aarch64-sve2.md
index 40c0728a7e6f00c395c360ce7625bc2e4a018809..bed44d7d6873877386222d56144cc115e3953a61 100644
--- a/gcc/config/aarch64/aarch64-sve2.md
+++ b/gcc/config/aarch64/aarch64-sve2.md
@@ -2317,41 +2317,24 @@ (define_insn "@aarch64_sve_<optab><mode>"
 ;; ---- [INT] Misc optab implementations
 ;; -------------------------------------------------------------------------
 ;; Includes:
-;; - aarch64_bitmask_udiv
+;; - bitmask_shift_plus
 ;; -------------------------------------------------------------------------
 
-;; div optimizations using narrowings
-;; we can do the division e.g. shorts by 255 faster by calculating it as
-;; (x + ((x + 257) >> 8)) >> 8 assuming the operation is done in
-;; double the precision of x.
-;;
-;; See aarch64-simd.md for bigger explanation.
-(define_expand "@aarch64_bitmask_udiv<mode>3"
-  [(match_operand:SVE_FULL_HSDI 0 "register_operand")
-   (match_operand:SVE_FULL_HSDI 1 "register_operand")
-   (match_operand:SVE_FULL_HSDI 2 "immediate_operand")]
+;; Optimize ((a + b) >> n) where n is half the bitsize of the vector
+(define_insn "*bitmask_shift_plus<mode>"
+  [(set (match_operand:SVE_FULL_HSDI 0 "register_operand" "=w")
+	(unspec:SVE_FULL_HSDI
+	   [(match_operand:<VPRED> 1)
+	    (lshiftrt:SVE_FULL_HSDI
+	      (plus:SVE_FULL_HSDI
+		(match_operand:SVE_FULL_HSDI 2 "register_operand" "w")
+		(match_operand:SVE_FULL_HSDI 3 "register_operand" "w"))
+	      (match_operand:SVE_FULL_HSDI 4
+		 "aarch64_simd_shift_imm_vec_exact_top" "Dr"))]
+          UNSPEC_PRED_X))]
   "TARGET_SVE2"
-{
-  unsigned HOST_WIDE_INT size
-    = (1ULL << GET_MODE_UNIT_BITSIZE (<VNARROW>mode)) - 1;
-  rtx elt = unwrap_const_vec_duplicate (operands[2]);
-  if (!CONST_INT_P (elt) || UINTVAL (elt) != size)
-    FAIL;
-
-  rtx addend = gen_reg_rtx (<MODE>mode);
-  rtx tmp1 = gen_reg_rtx (<VNARROW>mode);
-  rtx tmp2 = gen_reg_rtx (<VNARROW>mode);
-  rtx val = aarch64_simd_gen_const_vector_dup (<VNARROW>mode, 1);
-  emit_move_insn (addend, lowpart_subreg (<MODE>mode, val, <VNARROW>mode));
-  emit_insn (gen_aarch64_sve (UNSPEC_ADDHNB, <MODE>mode, tmp1, operands[1],
-			      addend));
-  emit_insn (gen_aarch64_sve (UNSPEC_ADDHNB, <MODE>mode, tmp2, operands[1],
-			      lowpart_subreg (<MODE>mode, tmp1,
-					      <VNARROW>mode)));
-  emit_move_insn (operands[0],
-		  lowpart_subreg (<MODE>mode, tmp2, <VNARROW>mode));
-  DONE;
-})
+  "addhnb\t%0.<Ventype>, %2.<Vetype>, %3.<Vetype>"
+)
 
 ;; =========================================================================
 ;; == Permutation
diff --git a/gcc/config/aarch64/aarch64.cc b/gcc/config/aarch64/aarch64.cc
index e6f47cbbb0d04a6f33b9a741ebb614cabd0204b9..2728fb347c0df1756b237f4d6268908eef6bdd2a 100644
--- a/gcc/config/aarch64/aarch64.cc
+++ b/gcc/config/aarch64/aarch64.cc
@@ -3849,6 +3849,13 @@ aarch64_vectorize_related_mode (machine_mode vector_mode,
   return default_vectorize_related_mode (vector_mode, element_mode, nunits);
 }
 
+/* Implement TARGET_VECTORIZE_PREFERRED_DIV_AS_SHIFTS_OVER_MULT.  */
+
+static bool aarch64_vectorize_preferred_div_as_shifts_over_mult (void)
+{
+  return true;
+}
+
 /* Implement TARGET_PREFERRED_ELSE_VALUE.  For binary operations,
    prefer to use the first arithmetic operand as the else value if
    the else value doesn't matter, since that exactly matches the SVE
@@ -24363,46 +24370,6 @@ aarch64_vectorize_vec_perm_const (machine_mode vmode, machine_mode op_mode,
 
   return ret;
 }
-
-/* Implement TARGET_VECTORIZE_CAN_SPECIAL_DIV_BY_CONST.  */
-
-bool
-aarch64_vectorize_can_special_div_by_constant (enum tree_code code,
-					       tree vectype, wide_int cst,
-					       rtx *output, rtx in0, rtx in1)
-{
-  if (code != TRUNC_DIV_EXPR
-      || !TYPE_UNSIGNED (vectype))
-    return false;
-
-  machine_mode mode = TYPE_MODE (vectype);
-  unsigned int flags = aarch64_classify_vector_mode (mode);
-  if ((flags & VEC_ANY_SVE) && !TARGET_SVE2)
-    return false;
-
-  int pow = wi::exact_log2 (cst + 1);
-  auto insn_code = maybe_code_for_aarch64_bitmask_udiv3 (TYPE_MODE (vectype));
-  /* SVE actually has a div operator, we may have gotten here through
-     that route.  */
-  if (pow != (int) (element_precision (vectype) / 2)
-      || insn_code == CODE_FOR_nothing)
-    return false;
-
-  /* We can use the optimized pattern.  */
-  if (in0 == NULL_RTX && in1 == NULL_RTX)
-    return true;
-
-  gcc_assert (output);
-
-  expand_operand ops[3];
-  create_output_operand (&ops[0], *output, mode);
-  create_input_operand (&ops[1], in0, mode);
-  create_fixed_operand (&ops[2], in1);
-  expand_insn (insn_code, 3, ops);
-  *output = ops[0].value;
-  return true;
-}
-
 /* Generate a byte permute mask for a register of mode MODE,
    which has NUNITS units.  */
 
@@ -27904,13 +27871,13 @@ aarch64_libgcc_floating_mode_supported_p
 #undef TARGET_MAX_ANCHOR_OFFSET
 #define TARGET_MAX_ANCHOR_OFFSET 4095
 
+#undef TARGET_VECTORIZE_PREFERRED_DIV_AS_SHIFTS_OVER_MULT
+#define TARGET_VECTORIZE_PREFERRED_DIV_AS_SHIFTS_OVER_MULT \
+  aarch64_vectorize_preferred_div_as_shifts_over_mult
+
 #undef TARGET_VECTOR_ALIGNMENT
 #define TARGET_VECTOR_ALIGNMENT aarch64_simd_vector_alignment
 
-#undef TARGET_VECTORIZE_CAN_SPECIAL_DIV_BY_CONST
-#define TARGET_VECTORIZE_CAN_SPECIAL_DIV_BY_CONST \
-  aarch64_vectorize_can_special_div_by_constant
-
 #undef TARGET_VECTORIZE_PREFERRED_VECTOR_ALIGNMENT
 #define TARGET_VECTORIZE_PREFERRED_VECTOR_ALIGNMENT \
   aarch64_vectorize_preferred_vector_alignment