constructFastKRRLearner: Fast implementation for Kernel Ridge Regression.
In DRR: Dimensionality Reduction via Regression
Description
Usage
Details
Value
References
See Also
Examples
Description
Constructs a learner for the divide and conquer version of KRR.
Usage
1
Details
This function is to be used with the CVST package as a drop in
replacement for constructKRRLearner. The
implementation approximates the inversion of the kernel Matrix
using the divide an conquer scheme, lowering computational and
memory complexity from O(n^3) and O(n^2) to
O(n^3/m^2) and O(n^2/m^2) respectively, where m are the
number of blocks to be used (parameter nblocks). Theoretically safe
values for m are < n^{1/3}, but practically m may
be a little bit larger. The function will issue a warning, if the
value for m is too large.
Value
Returns a learner similar to constructKRRLearner
suitable for the use with CV and
fastCV.
References
Zhang, Y., Duchi, J.C., Wainwright, M.J., 2013. Divide and Conquer
Kernel Ridge Regression: A Distributed Algorithm with Minimax
Optimal Rates. arXiv:1305.5029 [cs, math, stat].
See Also
Examples
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
ns <- noisySinc(1000)
nsTest <- noisySinc(1000)
fast.krr <- constructFastKRRLearner()
fast.p <- list(kernel="rbfdot", sigma=100, lambda=.1/getN(ns), nblocks = 4)
system.time(fast.m <- fast.krr$learn(ns, fast.p))
fast.pred <- fast.krr$predict(fast.m, nsTest)
sum((fast.pred - nsTest$y)^2) / getN(nsTest)
## Not run:
krr <- CVST::constructKRRLearner()
p <- list(kernel="rbfdot", sigma=100, lambda=.1/getN(ns))
system.time(m <- krr$learn(ns, p))
pred <- krr$predict(m, nsTest)
sum((pred - nsTest$y)^2) / getN(nsTest)
plot(ns, col = '#00000030', pch = 19)
lines(sort(nsTest$x), fast.pred[order(nsTest$x)], col = '#00C000', lty = 2)
lines(sort(nsTest$x), pred[order(nsTest$x)], col = '#0000C0', lty = 2)
legend('topleft', legend = c('fast KRR', 'KRR'),
col = c('#00C000', '#0000C0'), lty = 2)
## End(Not run)
DRR documentation built on Feb. 12, 2020, 5:59 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Description Usage Details Value References See Also Examples
Description
Constructs a learner for the divide and conquer version of KRR.
Usage
1 |
Details
This function is to be used with the CVST package as a drop in
replacement for constructKRRLearner. The
implementation approximates the inversion of the kernel Matrix
using the divide an conquer scheme, lowering computational and
memory complexity from O(n^3) and O(n^2) to
O(n^3/m^2) and O(n^2/m^2) respectively, where m are the
number of blocks to be used (parameter nblocks). Theoretically safe
values for m are < n^{1/3}, but practically m may
be a little bit larger. The function will issue a warning, if the
value for m is too large.
Value
Returns a learner similar to constructKRRLearner
suitable for the use with CV and
fastCV.
References
Zhang, Y., Duchi, J.C., Wainwright, M.J., 2013. Divide and Conquer Kernel Ridge Regression: A Distributed Algorithm with Minimax Optimal Rates. arXiv:1305.5029 [cs, math, stat].
See Also
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 | ns <- noisySinc(1000)
nsTest <- noisySinc(1000)
fast.krr <- constructFastKRRLearner()
fast.p <- list(kernel="rbfdot", sigma=100, lambda=.1/getN(ns), nblocks = 4)
system.time(fast.m <- fast.krr$learn(ns, fast.p))
fast.pred <- fast.krr$predict(fast.m, nsTest)
sum((fast.pred - nsTest$y)^2) / getN(nsTest)
## Not run:
krr <- CVST::constructKRRLearner()
p <- list(kernel="rbfdot", sigma=100, lambda=.1/getN(ns))
system.time(m <- krr$learn(ns, p))
pred <- krr$predict(m, nsTest)
sum((pred - nsTest$y)^2) / getN(nsTest)
plot(ns, col = '#00000030', pch = 19)
lines(sort(nsTest$x), fast.pred[order(nsTest$x)], col = '#00C000', lty = 2)
lines(sort(nsTest$x), pred[order(nsTest$x)], col = '#0000C0', lty = 2)
legend('topleft', legend = c('fast KRR', 'KRR'),
col = c('#00C000', '#0000C0'), lty = 2)
## End(Not run)
|
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.