By going above the 1000W threshold in chip-level cooling, Iceotope Labs, a premier provider of Precision Liquid Cooling applied sciences, has achieved a significant milestone. The brand new achievement of the agency, which is described of their white paper ‘Reaching chip cooling at 1000W and past with single-phase Precision Liquid Cooling,’ highlights the effectivity of single-phase liquid cooling in undertaking high-power chip cooling.
Lately, liquid cooling is changing into increasingly common within the information middle enterprise as a sustainable choice as a result of synthetic intelligence (AI) wants excessive compute densities and since IT gear’s thermal design energy is rising. This accomplishment by Iceotope Labs might proof to be essential as a result of it provides information middle homeowners peace of thoughts that their infrastructure investments will be capable to assist future 1000W to 2000W CPU and GPU energy wants.
The precision liquid cooling strategy of Iceotope Labs was put by means of intensive testing to verify its efficiency. Key findings revealed compelling outcomes:
- When uncovered to a 1000W warmth load from Intel’s Airport Cove thermal check car (TTV), Iceotope’s copper pinned KUL SINK demonstrated an excellent thermal resistance of 0.039 Ok/W at a circulation fee of seven l/min.
- Compared to a check of a comparable design utilizing a tank immersion product with a forced-flow heatsink, this means a 11.4% improve in thermal resistance. As energy grew from 250W to 1000W, thermal resistance was virtually fixed, offering assurance that the know-how can stably stand up to bigger energy ranges.
- Saying the know-how’s higher thermal efficiency over competing liquid cooling applied sciences, Neil Edmunds, Vice President of Product Administration at Iceotope, praised the accomplishment as a major trade milestone. He was sure that testing at larger energy ranges would show the cooling properties of the answer by itself.
Mohan J. Kumar, an Intel Fellow, agreed that attaining a 1000W cooling capability is crucial to establishing the inspiration for larger thermal design energy silicon. This innovation from Iceotope wouldn’t solely resolve the cooling issues of at the moment, however it could additionally set the stage for future information middle and Edge cluster options which might be environment friendly.
To realize even larger energy ranges in a protected, sustainable, and scalable means, Iceotope remains to be devoted to pushing the frontiers of cooling know-how. Precision Liquid Cooling techniques from Iceotope would offer a viable method to meet the altering cooling calls for of the trade as demand for high-performance computing (HPC) retains rising.
Obtain the white paper by clicking HERE to get the complete testing findings.
