Oracle Releases SPARC T5 Servers; Too Late?

First time accepted submitter bobthesungeek76036 writes "On March 26th, Larry Ellison and always with fashionable haircut John Fowler announced the new line of SPARC servers from Oracle. Touted as the fastest microprocessor in the world, they put up some impressive SPEC numbers against much more expensive (and older) IBM hardware. Is the industry still interested in SPARC or is it too late for Larry to regain the server market that Sun Microsystems had many moons ago?" El Reg has a pretty good overview of the new hardware; the T5 certainly looks interesting for highly threaded work loads (there's some massive SMT going on with 16 threads per core), but with Intel dominating for single-threaded performance and ARM-based servers becoming available squeezing them for massive multi-threading, is there really any hope in Oracle's efforts to stay in the hardware game?

We're running away from SPARC as fast...

[eyegor]

We're running away from SPARC as fast as we can.

Our unix shop used to be primarily SPARC-based, but with limited IT budgets, we're able to do far more with much less money using HP blades running CentOS.

For most purposes, SPARC hardware is far too expensive and Oracle seems to be doing all they can to kill Solaris.

We still run a handfull of SPARC systems that run specialized applications and a few Solaris zones, but nearly all other services have been pushed to natively hosted Linux systems, or virtual machines running Windows or Linux.

Re:Probably not.

[mabhatter654]

We STILL get that kind of service with our IBM System I (AS400) support.

If you are willing to pay, they have 4-hour support where they will get it there FASTER than overnight. And the tecs are super knowledgable.

Sadly, their blade and x86 support is not REMOTLY as sharp. And with converged hardware it became painful... Fast.

Re:Who cares?

[TheRaven64]

Insightful? No. I have an FPGA dev board on my desk. The dev board costs around $8K, the FPGA alone can be bought in small quantities for about $4K. We use it for experimental processor design. It can run our MIPS64-based softcore at about 100MHz (drawing around 40W) and there's enough space on die for 4-8 cores. You can't run a processor on one that is competitive with a cheap ARM processor (except if you configure the FPGA for a single algorithm, then you can't run general-purpose code on it), let alone one with 'all the power and capabilities we want'. FPGAs are cool, but they're no substitute for ASICs.