Add bfloat16 support in RCCL

Preprocessor symbol RCCL_BFLOAT16 is used as feature indicator
2019-11-15 10:39:48 -08:00
@@ -2,6 +2,11 @@

 cmake_minimum_required(VERSION 2.8.12)

+# We use C++14 features, this will add compile option: -std=c++14
+set( CMAKE_CXX_STANDARD 14 )
+# Without this line, it will add -std=gnu++14 instead, which has some issues.
+set( CMAKE_CXX_EXTENSIONS OFF )
+
 set(CMAKE_INSTALL_PREFIX "/opt/rocm" CACHE PATH "")

 project(rccl CXX)
@@ -39,7 +39,8 @@
  DECL_COLL3(coll, op, u64) \
  DECL_COLL3(coll, op, f16) \
  DECL_COLL3(coll, op, f32) \
-  DECL_COLL3(coll, op, f64)
+  DECL_COLL3(coll, op, f64) \
+  DECL_COLL3(coll, op, b16)

 #define DECL_COLL(coll) \
  DECL_COLL2(coll, sum) \
@@ -53,7 +53,8 @@ static inline __device__ void exitIfAbortBarrier(int abort) {
  NCCL_FUNC4(coll, op, u64), \
  NCCL_FUNC4(coll, op, f16), \
  NCCL_FUNC4(coll, op, f32), \
-  NCCL_FUNC4(coll, op, f64)
+  NCCL_FUNC4(coll, op, f64), \
+  NCCL_FUNC4(coll, op, b16)
 #define NCCL_FUNCS3B(coll, op) \
  NCCL_FUNC4(coll, op,  i8), \
  NCCL_FUNC4(coll, op,  i8), \
@@ -63,6 +64,7 @@ static inline __device__ void exitIfAbortBarrier(int abort) {
  NCCL_FUNC4(coll, op,  i8), \
  NCCL_FUNC4(coll, op,  i8), \
  NCCL_FUNC4(coll, op,  i8), \
+  NCCL_FUNC4(coll, op,  i8), \
  NCCL_FUNC4(coll, op,  i8)

 // Must be consistent with ncclRedOp_t
@@ -121,20 +123,20 @@ struct Caller<f, f + 1>{
 inline
 __device__
 void NCCL_CALL_FUNCTIONS(struct ncclColl* const c) noexcept {
-  if (c->funcIndex < 144) {
+  if (c->funcIndex < 160) {
    if (c->funcIndex % 4 == 0) ncclBroadcastRing_copy_i8(&c->args);
    else if (c->funcIndex % 4 == 1) ncclBroadcastRingLL_copy_i8(&c->args);
    else if (c->funcIndex % 4 == 2) ncclBroadcastTree_copy_i8(&c->args);
    else ncclBroadcastTreeLL_copy_i8(&c->args);
  }
-  else if (c->funcIndex < 288) Caller<144, 288>::call(c);
-  else if (c->funcIndex < 432) {
+  else if (c->funcIndex < 320) Caller<160, 320>::call(c);
+  else if (c->funcIndex < 480) {
    if (c->funcIndex % 4 == 0) ncclAllGatherRing_copy_i8(&c->args);
    else if (c->funcIndex % 4 == 1) ncclAllGatherRingLL_copy_i8(&c->args);
    else if (c->funcIndex % 4 == 2) ncclAllGatherTree_copy_i8(&c->args);
    else ncclAllGatherTreeLL_copy_i8(&c->args);
  }
-  else Caller<432, 720>::call(c);
+  else Caller<480, 800>::call(c);
 }

 static __device__ void load_parallel(void* dst, void* src, size_t size, int tid, uint32_t* abortCount) {
@@ -227,7 +229,8 @@ __global__ void NCCL_KERN_NAME(coll, op, dtype)(struct ncclColl firstColl) { \
  IMPL_COLL3(coll, op, ncclFunc, u64, uint64_t, ncclColl, ncclOp, ncclUint64) \
  IMPL_COLL3(coll, op, ncclFunc, f16, half,     ncclColl, ncclOp, ncclFloat16) \
  IMPL_COLL3(coll, op, ncclFunc, f32, float,    ncclColl, ncclOp, ncclFloat32) \
-  IMPL_COLL3(coll, op, ncclFunc, f64, double,   ncclColl, ncclOp, ncclFloat64)
+  IMPL_COLL3(coll, op, ncclFunc, f64, double,   ncclColl, ncclOp, ncclFloat64) \
+  IMPL_COLL3(coll, op, ncclFunc, b16, rccl_bfloat16, ncclColl, ncclOp, ncclBfloat16)

 #define COLL_UNROLL 2

@@ -241,6 +241,18 @@ template<> inline __device__
 void vStore<half>(volatile half* ptr, const half val) {
  ((half*)ptr)[0] = val;
 }
+
+template<> inline __device__
+rccl_bfloat16 vFetch<rccl_bfloat16>(const volatile rccl_bfloat16* ptr) {
+  rccl_bfloat16 r;
+  r.data = ptr->data;
+  return r;
+}
+
+template<> inline __device__
+void vStore<rccl_bfloat16>(volatile rccl_bfloat16* ptr, const rccl_bfloat16 val) {
+  ptr->data = val.data;
+}
 #endif

 typedef ulong2 Pack128;
@@ -134,6 +134,86 @@ struct FuncMin : private FuncBase<T> {
  }
 };

+template<>
+struct FuncSum<rccl_bfloat16> {
+  static constexpr auto n = sizeof(PackType) / sizeof(rccl_bfloat16);
+  __device__ PackType operator()(PackType x, PackType y) const
+  {
+    union converter { PackType storage; rccl_bfloat16 vec[n]; };
+    static_assert(sizeof(PackType) == sizeof(converter), "PackType must be the same size of converter.");
+    converter cx, cy, cr;
+    cx.storage = x;
+    cy.storage = y;
+    for (auto i = 0u; i != n; ++i) {
+      cr.vec[i] = cx.vec[i] + cy.vec[i];
+    }
+    return cr.storage;
+  }
+  __device__ rccl_bfloat16 operator()(const rccl_bfloat16 x, const rccl_bfloat16 y) const {
+    return x + y;
+  }
+};
+
+template<>
+struct FuncProd<rccl_bfloat16> {
+  static constexpr auto n = sizeof(PackType) / sizeof(rccl_bfloat16);
+  __device__ PackType operator()(PackType x, PackType y) const
+  {
+    union converter { PackType storage; rccl_bfloat16 vec[n]; };
+    static_assert(sizeof(PackType) == sizeof(converter), "PackType must be the same size of converter.");
+    converter cx, cy, cr;
+    cx.storage = x;
+    cy.storage = y;
+    for (auto i = 0u; i != n; ++i) {
+      cr.vec[i] = cx.vec[i] * cy.vec[i];
+    }
+    return cr.storage;
+  }
+  __device__ rccl_bfloat16 operator()(const rccl_bfloat16 x, const rccl_bfloat16 y) const {
+    return x * y;
+  }
+};
+
+template<>
+struct FuncMax<rccl_bfloat16> {
+  static constexpr auto n = sizeof(PackType) / sizeof(rccl_bfloat16);
+  __device__ PackType operator()(PackType x, PackType y) const
+  {
+    union converter { PackType storage; rccl_bfloat16 vec[n]; };
+    static_assert(sizeof(PackType) == sizeof(converter), "PackType must be the same size of converter.");
+    converter cx, cy, cr;
+    cx.storage = x;
+    cy.storage = y;
+    for (auto i = 0u; i != n; ++i) {
+      cr.vec[i] = cx.vec[i] < cy.vec[i] ? cy.vec[i] : cx.vec[i];
+    }
+    return cr.storage;
+  }
+  __device__ rccl_bfloat16 operator()(const rccl_bfloat16 x, const rccl_bfloat16 y) const {
+    return x < y ? y : x;
+  }
+};
+
+template<>
+struct FuncMin<rccl_bfloat16> {
+  static constexpr auto n = sizeof(PackType) / sizeof(rccl_bfloat16);
+  __device__ PackType operator()(PackType x, PackType y) const
+  {
+    union converter { PackType storage; rccl_bfloat16 vec[n]; };
+    static_assert(sizeof(PackType) == sizeof(converter), "PackType must be the same size of converter.");
+    converter cx, cy, cr;
+    cx.storage = x;
+    cy.storage = y;
+    for (auto i = 0u; i != n; ++i) {
+      cr.vec[i] = cx.vec[i] < cy.vec[i] ? cx.vec[i] : cy.vec[i];
+    }
+    return cr.storage;
+  }
+  __device__ rccl_bfloat16 operator()(const rccl_bfloat16 x, const rccl_bfloat16 y) const {
+    return x < y ? x : y;
+  }
+};
+
 #else

 template<typename T>
@@ -30,7 +30,8 @@
  NCCL_FUNC4(coll, op, u64), \
  NCCL_FUNC4(coll, op, f16), \
  NCCL_FUNC4(coll, op, f32), \
-  NCCL_FUNC4(coll, op, f64)
+  NCCL_FUNC4(coll, op, f64), \
+  NCCL_FUNC4(coll, op, b16)
 #define NCCL_FUNCS3B(coll, op) \
  NCCL_FUNC4(coll, op,  i8), \
  NCCL_FUNC4(coll, op,  i8), \
@@ -40,6 +41,7 @@
  NCCL_FUNC4(coll, op,  i8), \
  NCCL_FUNC4(coll, op,  i8), \
  NCCL_FUNC4(coll, op,  i8), \
+  NCCL_FUNC4(coll, op,  i8), \
  NCCL_FUNC4(coll, op,  i8)

 // Must be consistent with ncclRedOp_t -- but we only generate kernel for sums.
@@ -48,6 +48,7 @@ static __inline__ int ncclTypeSize(ncclDataType_t type) {
    case ncclUint8:
      return 1;
    case ncclFloat16:
+    case ncclBfloat16:
      return 2;
    case ncclInt32:
    case ncclUint32:
@@ -9,6 +9,7 @@
 #define NCCL_DEVICE_H_

 #include "nccl.h"
+#include "rccl_bfloat16.h"
 #include <stdint.h>

 // Convert volatile access to atomic
@@ -0,0 +1,253 @@
+/**
+ * MIT License
+ *
+ * Copyright 2019 Advanced Micro Devices, Inc. All rights reserved.
+ *
+ * Permission is hereby granted, free of charge, to any person obtaining a copy
+ * of this software and associated documentation files (the "Software"), to deal
+ * in the Software without restriction, including without limitation the rights
+ * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
+ * copies of the Software, and to permit persons to whom the Software is
+ * furnished to do so, subject to the following conditions:
+ *
+ * The above copyright notice and this permission notice shall be included in
+ * all copies or substantial portions of the Software.
+ *
+ * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
+ * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
+ * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
+ * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
+ * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
+ * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
+ * SOFTWARE.
+ */
+
+/*!\file
+ * \brief rccl_bfloat16.h provides struct for rccl_bfloat16 typedef
+ */
+
+#ifndef _RCCL_BFLOAT16_H_
+#define _RCCL_BFLOAT16_H_
+
+#if __cplusplus < 201402L || (!defined(__HCC__) && !defined(__HIPCC__))
+
+// If this is a C compiler, C++ compiler below C++14, or a host-only compiler, we only
+// include a minimal definition of rccl_bfloat16
+
+#include <stdint.h>
+/*! \brief Struct to represent a 16 bit brain floating point number. */
+typedef struct
+{
+    uint16_t data;
+} rccl_bfloat16;
+
+#else // __cplusplus < 201402L || (!defined(__HCC__) && !defined(__HIPCC__))
+
+#include <cmath>
+#include <cstddef>
+#include <cstdint>
+#include <hip/hip_runtime.h>
+#include <ostream>
+#include <type_traits>
+
+struct rccl_bfloat16
+{
+    uint16_t data;
+
+    __host__ __device__ rccl_bfloat16() = default;
+
+    // round upper 16 bits of IEEE float to convert to bfloat16
+    explicit constexpr __host__ __device__ rccl_bfloat16(float f)
+        : data(float_to_bfloat16(f))
+    {
+    }
+
+    // zero extend lower 16 bits of bfloat16 to convert to IEEE float
+    constexpr __host__ __device__ operator float() const
+    {
+        union
+        {
+            uint32_t int32;
+            float    fp32;
+        } u = {uint32_t(data) << 16};
+        return u.fp32;
+    }
+
+private:
+    static constexpr __host__ __device__ uint16_t float_to_bfloat16(float f)
+    {
+        union
+        {
+            float    fp32;
+            uint32_t int32;
+        } u = {f};
+        if(~u.int32 & 0x7f800000)
+        {
+            // When the exponent bits are not all 1s, then the value is zero, normal,
+            // or subnormal. We round the bfloat16 mantissa up by adding 0x7FFF, plus
+            // 1 if the least significant bit of the bfloat16 mantissa is 1 (odd).
+            // This causes the bfloat16's mantissa to be incremented by 1 if the 16
+            // least significant bits of the float mantissa are greater than 0x8000,
+            // or if they are equal to 0x8000 and the least significant bit of the
+            // bfloat16 mantissa is 1 (odd). This causes it to be rounded to even when
+            // the lower 16 bits are exactly 0x8000. If the bfloat16 mantissa already
+            // has the value 0x7f, then incrementing it causes it to become 0x00 and
+            // the exponent is incremented by one, which is the next higher FP value
+            // to the unrounded bfloat16 value. When the bfloat16 value is subnormal
+            // with an exponent of 0x00 and a mantissa of 0x7F, it may be rounded up
+            // to a normal value with an exponent of 0x01 and a mantissa of 0x00.
+            // When the bfloat16 value has an exponent of 0xFE and a mantissa of 0x7F,
+            // incrementing it causes it to become an exponent of 0xFF and a mantissa
+            // of 0x00, which is Inf, the next higher value to the unrounded value.
+            u.int32 += 0x7fff + ((u.int32 >> 16) & 1); // Round to nearest, round to even
+        }
+        else if(u.int32 & 0xffff)
+        {
+            // When all of the exponent bits are 1, the value is Inf or NaN.
+            // Inf is indicated by a zero mantissa. NaN is indicated by any nonzero
+            // mantissa bit. Quiet NaN is indicated by the most significant mantissa
+            // bit being 1. Signaling NaN is indicated by the most significant
+            // mantissa bit being 0 but some other bit(s) being 1. If any of the
+            // lower 16 bits of the mantissa are 1, we set the least significant bit
+            // of the bfloat16 mantissa, in order to preserve signaling NaN in case
+            // the bloat16's mantissa bits are all 0.
+            u.int32 |= 0x10000; // Preserve signaling NaN
+        }
+        return uint16_t(u.int32 >> 16);
+    }
+};
+
+typedef struct
+{
+    uint16_t data;
+} rccl_bfloat16_public;
+
+static_assert(std::is_standard_layout<rccl_bfloat16>{},
+              "rccl_bfloat16 is not a standard layout type, and thus is "
+              "incompatible with C.");
+
+static_assert(std::is_trivial<rccl_bfloat16>{},
+              "rccl_bfloat16 is not a trivial type, and thus is "
+              "incompatible with C.");
+
+static_assert(sizeof(rccl_bfloat16) == sizeof(rccl_bfloat16_public)
+                  && offsetof(rccl_bfloat16, data) == offsetof(rccl_bfloat16_public, data),
+              "internal rccl_bfloat16 does not match public rccl_bfloat16");
+
+inline std::ostream& operator<<(std::ostream& os, const rccl_bfloat16& bf16)
+{
+    return os << float(bf16);
+}
+constexpr __host__ __device__ rccl_bfloat16 operator+(rccl_bfloat16 a)
+{
+    return a;
+}
+constexpr __host__ __device__ rccl_bfloat16 operator-(rccl_bfloat16 a)
+{
+    a.data ^= 0x8000;
+    return a;
+}
+constexpr __host__ __device__ rccl_bfloat16 operator+(rccl_bfloat16 a, rccl_bfloat16 b)
+{
+    return rccl_bfloat16(float(a) + float(b));
+}
+constexpr __host__ __device__ rccl_bfloat16 operator-(rccl_bfloat16 a, rccl_bfloat16 b)
+{
+    return rccl_bfloat16(float(a) - float(b));
+}
+constexpr __host__ __device__ rccl_bfloat16 operator*(rccl_bfloat16 a, rccl_bfloat16 b)
+{
+    return rccl_bfloat16(float(a) * float(b));
+}
+constexpr __host__ __device__ rccl_bfloat16 operator/(rccl_bfloat16 a, rccl_bfloat16 b)
+{
+    return rccl_bfloat16(float(a) / float(b));
+}
+constexpr __host__ __device__ bool operator<(rccl_bfloat16 a, rccl_bfloat16 b)
+{
+    return float(a) < float(b);
+}
+constexpr __host__ __device__ bool operator==(rccl_bfloat16 a, rccl_bfloat16 b)
+{
+    return float(a) == float(b);
+}
+constexpr __host__ __device__ bool operator>(rccl_bfloat16 a, rccl_bfloat16 b)
+{
+    return b < a;
+}
+constexpr __host__ __device__ bool operator<=(rccl_bfloat16 a, rccl_bfloat16 b)
+{
+    return !(a > b);
+}
+constexpr __host__ __device__ bool operator!=(rccl_bfloat16 a, rccl_bfloat16 b)
+{
+    return !(a == b);
+}
+constexpr __host__ __device__ bool operator>=(rccl_bfloat16 a, rccl_bfloat16 b)
+{
+    return !(a < b);
+}
+constexpr __host__ __device__ rccl_bfloat16& operator+=(rccl_bfloat16& a, rccl_bfloat16 b)
+{
+    return a = a + b;
+}
+constexpr __host__ __device__ rccl_bfloat16& operator-=(rccl_bfloat16& a, rccl_bfloat16 b)
+{
+    return a = a - b;
+}
+constexpr __host__ __device__ rccl_bfloat16& operator*=(rccl_bfloat16& a, rccl_bfloat16 b)
+{
+    return a = a * b;
+}
+constexpr __host__ __device__ rccl_bfloat16& operator/=(rccl_bfloat16& a, rccl_bfloat16 b)
+{
+    return a = a / b;
+}
+constexpr __host__ __device__ rccl_bfloat16& operator++(rccl_bfloat16& a)
+{
+    return a += rccl_bfloat16(1.0f);
+}
+constexpr __host__ __device__ rccl_bfloat16& operator--(rccl_bfloat16& a)
+{
+    return a -= rccl_bfloat16(1.0f);
+}
+constexpr __host__ __device__ rccl_bfloat16 operator++(rccl_bfloat16& a, int)
+{
+    rccl_bfloat16 orig = a;
+    ++a;
+    return orig;
+}
+constexpr __host__ __device__ rccl_bfloat16 operator--(rccl_bfloat16& a, int)
+{
+    rccl_bfloat16 orig = a;
+    --a;
+    return orig;
+}
+
+namespace std
+{
+    constexpr __host__ __device__ bool isinf(rccl_bfloat16 a)
+    {
+        return !(~a.data & 0x7f80) && !(a.data & 0x7f);
+    }
+    constexpr __host__ __device__ bool isnan(rccl_bfloat16 a)
+    {
+        return !(~a.data & 0x7f80) && +(a.data & 0x7f);
+    }
+    constexpr __host__ __device__ bool iszero(rccl_bfloat16 a)
+    {
+        return !(a.data & 0x7fff);
+    }
+    inline rccl_bfloat16 sin(rccl_bfloat16 a)
+    {
+        return rccl_bfloat16(sinf(float(a)));
+    }
+    inline rccl_bfloat16 cos(rccl_bfloat16 a)
+    {
+        return rccl_bfloat16(cosf(float(a)));
+    }
+}
+
+#endif // __cplusplus < 201402L || (!defined(__HCC__) && !defined(__HIPCC__))
+
+#endif // _RCCL_BFLOAT16_H_
@@ -19,6 +19,8 @@
 #define NCCL_VERSION_CODE ${NCCL_VERSION}
 #define NCCL_VERSION(X,Y,Z) ((X) * 1000 + (Y) * 100 + (Z))

+#define RCCL_BFLOAT16 1
+
 #ifdef __cplusplus
 extern "C" {
 #endif
@@ -116,7 +118,8 @@ typedef enum { ncclInt8       = 0, ncclChar       = 0,
               ncclFloat16    = 6, ncclHalf       = 6,
               ncclFloat32    = 7, ncclFloat      = 7,
               ncclFloat64    = 8, ncclDouble     = 8,
-               ncclNumTypes   = 9 } ncclDataType_t;
+               ncclBfloat16   = 9,
+               ncclNumTypes   = 10 } ncclDataType_t;

 /*
 * Collective communication operations