This evaluation is taken from the example section of mkinfit. When using an mkin version equal to or greater than 0.9-36 and a C compiler (gcc) is available, you will see a message that the model is being compiled from autogenerated C code when defining a model using mkinmod. The mkinmod() function checks for presence of the gcc compiler using
Sys.which("gcc")## gcc
## "/usr/bin/gcc"First, we build a simple degradation model for a parent compound with one metabolite.
library("mkin")## Loading required package: minpack.lm
## Loading required package: rootSolve
## Loading required package: inline
## Loading required package: methods
## Loading required package: parallelSFO_SFO <- mkinmod(
parent = mkinsub("SFO", "m1"),
m1 = mkinsub("SFO"))## Successfully compiled differential equation model from auto-generated C code.We can compare the performance of the Eigenvalue based solution against the compiled version and the R implementation of the differential equations using the microbenchmark package.
library("microbenchmark")
mb.1 <- microbenchmark(
mkinfit(SFO_SFO, FOCUS_2006_D, solution_type = "deSolve", use_compiled = FALSE,
quiet = TRUE),
mkinfit(SFO_SFO, FOCUS_2006_D, solution_type = "eigen", quiet = TRUE),
mkinfit(SFO_SFO, FOCUS_2006_D, solution_type = "deSolve", quiet = TRUE),
times = 3, control = list(warmup = 1))
smb.1 <- summary(mb.1)[-1]
rownames(smb.1) <- c("deSolve, not compiled", "Eigenvalue based", "deSolve, compiled")
print(smb.1)## min lq mean median uq
## deSolve, not compiled 5292.0165 5313.7620 5364.5733 5335.5075 5400.8517
## Eigenvalue based 893.9459 921.1984 936.1750 948.4509 957.2895
## deSolve, compiled 742.7723 745.4243 750.1963 748.0763 753.9083
## max neval
## deSolve, not compiled 5466.1959 3
## Eigenvalue based 966.1282 3
## deSolve, compiled 759.7404 3We see that using the compiled model is by a factor of 7.1 faster than using the R version with the default ode solver, and it is even faster than the Eigenvalue based solution implemented in R which does not need iterative solution of the ODEs:
smb.1["median"]/smb.1["deSolve, compiled", "median"]## median
## deSolve, not compiled 7.132304
## Eigenvalue based 1.267853
## deSolve, compiled 1.000000This evaluation is also taken from the example section of mkinfit.
FOMC_SFO <- mkinmod(
parent = mkinsub("FOMC", "m1"),
m1 = mkinsub( "SFO"))## Successfully compiled differential equation model from auto-generated C code.mb.2 <- microbenchmark(
mkinfit(FOMC_SFO, FOCUS_2006_D, use_compiled = FALSE, quiet = TRUE),
mkinfit(FOMC_SFO, FOCUS_2006_D, quiet = TRUE),
times = 3, control = list(warmup = 1))
smb.2 <- summary(mb.2)[-1]
rownames(smb.2) <- c("deSolve, not compiled", "deSolve, compiled")
print(smb.2)## min lq mean median uq
## deSolve, not compiled 11.277340 11.336373 11.392883 11.395407 11.450654
## deSolve, compiled 1.339204 1.342662 1.350783 1.346121 1.356573
## max neval
## deSolve, not compiled 11.505901 3
## deSolve, compiled 1.367025 3smb.2["median"]/smb.2["deSolve, compiled", "median"]## median
## deSolve, not compiled 8.465368
## deSolve, compiled 1.000000Here we get a performance benefit of a factor of 8.5 using the version of the differential equation model compiled from C code using the inline package!
This vignette was built with mkin 0.9.39 on
## R version 3.2.1 (2015-06-18)
## Platform: x86_64-pc-linux-gnu (64-bit)
## Running under: Debian GNU/Linux 8 (jessie)## CPU model: Intel(R) Core(TM) i7-4710MQ CPU @ 2.50GHz