Here's a fairly straightforward implementation. Note that we convert the divide and threshold test into just a test against `threshold * 4`

(in order to eliminate the divide):

```
void sum(const int n, const int32_t *a, const int32_t *b, const int32_t *c, const int32_t *d, int32_t *result)
{
const int32_t threshold4 = threshold * 4;
const int32x4_t vthreshold4 = { threshold4, threshold4, threshold4, threshold4 };
const uint32x4_t vk1 = { 1, 1, 1, 1 };
int i;
for (i = 0; i < n; i += 4)
{
int32x4_t va = vld1q_s32(&a[i]); // load values from a, b, c, d
int32x4_t vb = vld1q_s32(&b[i]);
int32x4_t vc = vld1q_s32(&c[i]);
int32x4_t vd = vld1q_s32(&d[i]);
int32x4_t vsum = vaddq_s32(va, vb); // sum values form a, b, c, d
vsum = vaddq_s32(vsum, vc);
vsum = vaddq_s32(vsum, vd);
uint32x4_t vcmp = vcgtq_s32(vsum, vthreshold4);
// compare with threshold * 4
int32x4_t vresult = (int32x4_t)vandq_u32(vcmp, vk1);
// convert result to 0/1
vst1q_s32(&result[i], vresult); // store result
}
}
```

Notes:

- completely untested code - may need further work
`result`

has been changed to `int32_t *`

- it's not hard to pack down to `uint8_t`

but it adds a lot of complexity to this initial example so I thought I'd keep it simple for now
`a`

, `b`

, `c`

, `d`

, `result`

all need to be 16 byte aligned
`n`

needs to be a multiple of 4
- sum of
`a`

, `b`

, `c`

, `d`

needs to fit within 32 bit signed int
`threshold * 4`

needs to fit within 32 bit signed int