F5F Stay Refreshed Hardware Desktop What is the quickest method for thermohydraulic simulation?

What is the quickest method for thermohydraulic simulation?

What is the quickest method for thermohydraulic simulation?

T
TMGC_Oderic
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03-05-2016, 06:28 PM
#1
Need three new PCs for thermohydraulic power plant simulation. Graphics aren't a priority. Focus on CPU clock speed and RAM speed are key. Hard drive speed likely doesn't matter much. Looking for recommendations on CPU and motherboard options.
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T
TMGC_Oderic
03-05-2016, 06:28 PM #1

Need three new PCs for thermohydraulic power plant simulation. Graphics aren't a priority. Focus on CPU clock speed and RAM speed are key. Hard drive speed likely doesn't matter much. Looking for recommendations on CPU and motherboard options.

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M
Mitchell006
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03-07-2016, 11:11 AM
#2
What tools will you be employing? What processing power can the software handle effectively? How much memory does the simulation require—8GB, 64GB or more?
What is your estimated budget? For example, are you considering Xeon, Threadripper, or Epyc options?
You might also want to check a relevant forum or reach out to the vendor for precise details.
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M
Mitchell006
03-07-2016, 11:11 AM #2

What tools will you be employing? What processing power can the software handle effectively? How much memory does the simulation require—8GB, 64GB or more?
What is your estimated budget? For example, are you considering Xeon, Threadripper, or Epyc options?
You might also want to check a relevant forum or reach out to the vendor for precise details.

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mertcan35
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03-12-2016, 02:32 PM
#3
The software's level of threading depends on its design. Well-optimized code can utilize multiple cores efficiently, making it faster with more cores rather than relying on a smaller number of high-performance cores.
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M
mertcan35
03-12-2016, 02:32 PM #3

The software's level of threading depends on its design. Well-optimized code can utilize multiple cores efficiently, making it faster with more cores rather than relying on a smaller number of high-performance cores.

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JeanTheLegend
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03-12-2016, 09:06 PM
#4
Here’s a concise version of the suggested PC build for thermohydraulic power plant simulations:
CPU: AMD Ryzen 5 7600X 4.7 GHz 6-Core Processor
CPU Cooler: Noctua NH-D15 82.5 CFM CPU Cooler
Motherboard: MSI MAG X670E TOMAHAWK WIFI ATX AM5 Motherboard
This configuration offers strong performance and stability, with a recommended price around $550. Overclocking to 5.2 - 5.4 GHz is typically feasible.
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J
JeanTheLegend
03-12-2016, 09:06 PM #4

Here’s a concise version of the suggested PC build for thermohydraulic power plant simulations:
CPU: AMD Ryzen 5 7600X 4.7 GHz 6-Core Processor
CPU Cooler: Noctua NH-D15 82.5 CFM CPU Cooler
Motherboard: MSI MAG X670E TOMAHAWK WIFI ATX AM5 Motherboard
This configuration offers strong performance and stability, with a recommended price around $550. Overclocking to 5.2 - 5.4 GHz is typically feasible.

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D
Danonina
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75
03-16-2016, 01:11 AM
#5
What application are you planning to use?
Does it include a forum or hardware suggestions?
Do you have a specific budget in mind?
Many simulations run in a single thread, so yes, clock speed matters.
However, the total number of instructions per clock also plays a role.
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D
Danonina
03-16-2016, 01:11 AM #5

What application are you planning to use?
Does it include a forum or hardware suggestions?
Do you have a specific budget in mind?
Many simulations run in a single thread, so yes, clock speed matters.
However, the total number of instructions per clock also plays a role.

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