Thanks Tushar for your help and for suggesting the tool. I will study the
tool.
Thanks,
Pavan
On Wed, Aug 29, 2012 at 1:54 PM, Tushar Krishna wrote:
> **
> Hmm your dynamic power is about 5.6mW per router, while static power is
> 52mW per router.
>
> The dynamic is probably low because of low ut
Hmm your dynamic power is about 5.6mW per router, while static power is
52mW per router.
The dynamic is probably low because of low utilization, or because the
simulation continued for many cycles even after all 200K packets were
delivered.
The static power definitely seems too high.
Try to l
Hello,
Thank you for your reply. I have a question on the static and dynamic power
consumed.
I have a simulated a 8 core 8 router mesh NoC with synthetic traffic where
each core injects 200,000 packets in to the network. I have simulated at 65
nm technology.
The power numbers look like this.
Dyn
That is the combined power for entire NoC.
If you want individual router power, and/or breakdown of individual components,
look at network/orion/NetworkPower.cc
- Tushar
On Aug 28, 2012, at 12:30 PM, Pavan Poluri wrote:
> Hello,
>
> I have done a full system simulation with 8 cores, 8 routers,
Hello,
I have done a full system simulation with 8 cores, 8 routers, 8 L2 caches
on a mesh topology with garnet's fixed pipeline implementation. The
simulation statistics can be seen in ruby.stats file that contains router
power statistics like router dynamic power, router static power, router
clo
