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tech.compute

Clojars Project

Library designed to provide a generic compute abstraction to allow some level of shared implementation between a cpu, cuda, openCL, webworkers, etc. design. This system is not specific to neural networks nor it is specific to doing linear algebra but is rather the basis to implement any generic algorithm across a range of environments but targetting environments where there is a distinct transfer step between the main computing system (called the host) and some external compute system (called the device). The primitives of this layer are carefully chosen to be implementable across a wide range of different 'devices' such that a unified codebase and run unmodified in the various potential runtimes listed above and this includes operations like:

  • Offsetting device buffers to create new buffers. Thus allows efficient implementation of pooling algorithms or buffer coalescing where the user desires to create 1 large buffer and the create a series of smaller buffers piecemeal later. Sub-buffers are not distiguishable to the implementations from the original source buffers.
  • Initializing buffers to fixed values.
  • Transfer of data between the host and device.
  • Overlapping transfer with device compute using multiple 'streams' of execution.
  • Synchronizing stream execution with either the host system or with another on-device stream.

There is a generalized underlying compute layer that works across 6 primitive datatypes in the JVM - bytes, shorts, ints, longs, floats and doubles - along with 4 datatypes (unsigned versions of the integer types above). This compute layer contains the protocols that define an interface to a compute driver, either cpu or cuda at this time. This interface contains ways to move data from the host architecture to the specific device architecture.

Components of the compute abstraction:

driver.clj

(ns documentation)

  "Base set of protocols required to move information from the host to the device as well as enable some form of computation on a given device.  There is a cpu implementation provided for reference.

  Base datatypes are defined:
   * Driver: Enables enumeration of devices and creation of host buffers.
   * Device: Creates streams and device buffers.
   * Stream: Stream of execution occuring on the device.
   * Buffer: Lightly typed (java primitive types at this time) heavy on-device buffer.

This layer defines operations you would expect to find on any buffer in a C-based language such as:

Buffers allow memcpy, offsetting, upload to device and download from device. Buffers can be offset to produce a new (shorter) buffer with a different base address.

There are two concepts used in this file that are not defined:

  1. resource management
  2. datatype

Resource management allows stack-based resource algorithms similar to the RAII concept in c++. This is important to ensure that using GPU resources is as pleasant and as forgiving as possible.

The datatype library allows identification and efficient copying of data into packed sequential buffers, including marshalling copies where we want to say copy a buffer of bytes into a buffer of floats. This library is very carefully written to allow efficient upload/download characteristics so client code does not have unnecessary bottlenecks around moving data to or from a compute device while still allowing users complete flexibility with regards to their choice of data used in their systems external to the compute system.

This combination of systems (driver, datatype, and resource) are designed to work together to enable a generic computing abstraction, not specific to linear algebra or neural networks. Should clojure become a language where people are expressing a wide range of algorithms on the GPU, CPU, and perhaps in the web then this would be an appropriate substrate to enable efficient data management for those algorithms.

There is one default driver provided for a pure-cpu implementation

  1. cpu

Maths!

Included in this system is a simple, generic math library useful across a range of devices. This is not meant to be a comprehensive solution but rather enough of a solution as to drastically cut down on the amount of engineering required to move a problem onto those other devices and then use potentially custom code or other libraries once on those devices. As such it is engineered with a focus on simplicity of backend implementation and generality of operations.

Here is a document describing it in more detail.

License

Copyright © 2018 TechAscent, LLC

Distributed under the Eclipse Public License either version 1.0 or (at your option) any later version.

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