Depends on what number of reads you're dealing with and how much resources your computer has. It would be helpful if you can provide that information.

What I can tell you is that TopHat will take a very long time if you don't use it multithreaded, and memory can bean issue if you want to run Cufflinks on a lot of reads (and sometimes for TopHat too), although the latest version of Cufflinks runs a lot more efficiently.

If you have a few hundred millions reads, it will be hard for sure

Thanks GKM below is more specific information

Thanks GKM.

RNA-seq is peformed using Illumina Genome Analyzer IIe and 1 lane was used for each samples.

Our facility website tells as below
'Illumina/Solexa Genome Analyzer generates approximately 50 million raw reads of 36 nt length per full run'

I can not check exact reads, however, I think similar reads were obtained in my case.

Actually, I am planning to buy a new apple computer.
And the spec is dependent on your suggests.
I think that multithreaded is about cpu and memory is about ram size.
Would you mind suggest specific specs?

I usually run TopHat on at least 8 cores and cufflinks on 8-16, on your data it would probably take 7-8 hours for TopHat (maybe more, maybe less) and 1-2 for cufflinks with that kind of machine. As I said, cufflinks has gotten very efficient since the last version, I just ran it on 80M reads and it was taking less than a gigabyte RAM, so memory should not be an issue. So if you're willing to wait, you can probably run the pipeline on a personal computer, although it will be more unpleasant than running it on a cluster.

Also, if you have 36bp reads and not 75bp ones, you should supply TopHat with a junctions file.

We run bowtie on computers with 8 cores (2 quad-cores, I think) and 24 GB of RAM. That suits our purposes. I definitely wouldn't run any of these algorithms on a laptop, and never with less than 4 cores. If you don't mind waiting overnight for runs, a 6-8 core desktop should be fine. If you can wait over the weekend or a week you might be able to use a high-powered laptop, though I wouldn't recommend it.

We generally have multiplexed runs that we can split up, and run each one on a separate 8-core machine, which speeds things up considerably. That's a much bigger hardware investment, but it makes things run fast.