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6.6 Auxiliary Basis (Resolution of the Identity) MP2 Methods

6.6.4 GPU Implementation of RI-MP2

(April 13, 2024)

Q-Chem currently offers the possibility of accelerating RI-MP2 calculations using graphics processing units (GPUs). Currently, this is implemented for CUDA-enabled NVIDIA graphics cards only, such as (in historical order from 2008) the GeForce, Quadro, Tesla and Fermi cards. More information about CUDA-enabled cards is available at

http://www.nvidia.com/object/cuda_gpus.html

It should be noted that these GPUs have specific power and motherboard requirements.

Software requirements include the installation of the appropriate NVIDIA CUDA driver (at least version 1.0, currently 3.2) and linear algebra library, CUBLAS (at least version 1.0, currently 2.0). These can be downloaded jointly in NVIDIA’s developer website:

http://developer.nvidia.com/object/cuda_3_2_downloads.html

We have implemented a mixed-precision algorithm in order to get better than single precision when users only have single-precision GPUs. This is accomplished by noting that RI-MP2 matrices have a large fraction of numerically “small” elements and a small fraction of numerically “large” ones. The latter can greatly affect the accuracy of the calculation in single-precision only calculations, but calculation involves a relatively small number of compute cycles. So, given a threshold value δ, we perform a separation between “small” and “large” elements and accelerate the former compute-intensive operations using the GPU (in single-precision) and compute the latter on the CPU (using double-precision). We are thus able to determine how much double-precision we desire by tuning the δ parameter, and tailoring the balance between computational speed and accuracy.

CUDA_RI-MP2

CUDA_RI-MP2
       Enables GPU implementation of RI-MP2
TYPE:
       LOGICAL
DEFAULT:
       FALSE
OPTIONS:
       FALSE GPU-enabled MGEMM off TRUE GPU-enabled MGEMM on
RECOMMENDATION:
       Necessary to set to 1 in order to run GPU-enabled RI-MP2

USECUBLAS_THRESH

USECUBLAS_THRESH
       Sets threshold of matrix size sent to GPU (smaller size not worth sending to GPU).
TYPE:
       INTEGER
DEFAULT:
       250
OPTIONS:
       n user-defined threshold
RECOMMENDATION:
       Use the default value. Anything less can seriously hinder the GPU acceleration

USE_MGEMM

USE_MGEMM
       Use the mixed-precision matrix scheme (MGEMM) if you want to make calculations in your card in single-precision (or if you have a single-precision-only GPU), but leave some parts of the RI-MP2 calculation in double precision)
TYPE:
       LOGICAL
DEFAULT:
       FALSE
OPTIONS:
       FALSE MGEMM disabled TRUE MGEMM enabled
RECOMMENDATION:
       Use when having single-precision cards

MGEMM_THRESH

MGEMM_THRESH
       Sets MGEMM threshold to determine the separation between “large” and “small” matrix elements. A larger threshold value will result in a value closer to the single-precision result. Note that the desired factor should be multiplied by 10000 to ensure an integer value.
TYPE:
       INTEGER
DEFAULT:
       10000 (corresponds to 1)
OPTIONS:
       n User-specified threshold
RECOMMENDATION:
       For small molecules and basis sets up to triple-ζ, the default value suffices to not deviate too much from the double-precision values. Care should be taken to reduce this number for larger molecules and also larger basis-sets.

Example 6.5  RI-MP2 double-precision calculation

$molecule
   0 1
   c
   h1  c  1.089665
   h2  c  1.089665  h1  109.47122063
   h3  c  1.089665  h1  109.47122063  h2   120.
   h4  c  1.089665  h1  109.47122063  h2  -120.
$end

$rem
   METHOD       rimp2
   BASIS        cc-pvdz
   AUX_BASIS    rimp2-cc-pvdz
   CUDA_RIMP2   1
$end

Example 6.6  RI-MP2 calculation with MGEMM

$molecule
   0 1
   c
   h1  c  1.089665
   h2  c  1.089665  h1  109.47122063
   h3  c  1.089665  h1  109.47122063  h2   120.
   h4  c  1.089665  h1  109.47122063  h2  -120.
$end

$rem
   METHOD         rimp2
   BASIS          cc-pvdz
   AUX_BASIS      rimp2-cc-pvdz
   CUDA_RIMP2     1
   USE_MGEMM      1
   MGEMM_THRESH   10000
$end