A.R.T. Digital Secures Exclusive Agreement with Forced Physics to Transform Bitcoin Mining Cooling Technology
Austin, Texas, January twentieth, 2025, Chainwire
A.R.T. Digital Holdings Corp. (OTCMKTS: CGAC), a publicly traded Digital Power and Bitcoin mining firm, has entered right into a binding exclusivity settlement to safe the rights to make the most of Forced Physics’ JouleForce™ cooling know-how within the cryptocurrency mining sector. By leveraging this breakthrough innovation, A.R.T. Digital is advancing the event of a scalable mining system constructed to JouleForce specs, addressing Bitcoin mining’s biggest challenges: thermal administration, sustainability, and operational effectivity.
This unique settlement highlights A.R.T. Digital’s dedication to advancing Bitcoin mining know-how. It unlocks new alternatives to redefine business approaches to thermal administration, reinforcing the corporate’s function in next-generation mining options.
A.R.T. Digital will ship its first system, constructed to JouleForce specs. This initiative combines Pressured Physics’ transformative cooling innovation with superior system improvement, guaranteeing seamless integration, aiming to reinforce effectivity and scalability within the mining sector.
“This challenge highlights the facility of innovation and collaboration,” mentioned Brian Snyder, Chief Technique and Innovation Officer at A.R.T. Digital. “By bringing JouleForce know-how to life, we’re not simply fixing Bitcoin mining’s most important problem—we’re creating a completely new normal for sustainable, high-performance operations.”
This breakthrough know-how and strategic collaboration underscore A.R.T. Digital’s dedication to advancing the Bitcoin mining business, opening doorways to untapped energy-rich areas, and setting the stage for transformative progress.
Advancing Cooling Effectivity
As Bitcoin mining {hardware} evolves to smaller, extra highly effective nodes like 3nm processors, thermal administration has emerged as a crucial problem. Conventional cooling programs rely upon giant temperature differentials (delta T) between the chip’s working temperature and consumption air to dissipate warmth successfully. In hotter climates the place ambient air exceeds 95°F (35°C), this reliance considerably reduces effectivity, forcing machines to throttle efficiency, decrease hash price output, and finally diminish mining profitability.
Even in managed environments with consumption air at 70°F, standard warmth sinks fall quick. A chip working at 185°F sometimes exhausts air at solely 100-110°F, creating a big and inefficient temperature differential. This inefficiency drives greater power consumption for followers, HVAC programs, and different cooling infrastructure, including substantial operational prices.
Pressured Physics’ JouleForce cooling know-how addresses this problem head-on. By using a vapor chamber coupled with their patented engineered blades, the system maximizes thermal change between air molecules and the warmth sink floor. In contrast to conventional programs, JouleForce minimizes the temperature hole, permitting exhaust air temperatures to strategy the chip’s working temperature even in excessive warmth, enabling environment friendly and dependable efficiency the place standard options fail. In cooler environments, this innovation permits for efficient overclocking.
- Exhaust air temperatures can attain close to the chip temperature by improved thermal change, sustaining optimum ASIC working temperatures in sizzling environments.
- Dependable operation in sizzling climates with out throttling efficiency or lowering hash price.
- Elimination of pricy cooling infrastructure like water chillers, HVAC, or moist partitions.
- This water-free resolution not solely reduces operational prices but additionally helps environmentally sustainable mining practices, a rising precedence within the cryptocurrency sector.
- Lowered power consumption by simplifying airflow programs and cooling necessities.
This breakthrough permits mining programs to function effectively in excessive environments, unlocking alternatives in energy-abundant however historically impractical areas.
“This isn’t simply incremental progress—it’s a whole rethinking of air cooling,” mentioned Brian Snyder, Chief Technique and Innovation Officer at A.R.T. Digital. “Whereas delta T inefficiencies restrict conventional programs, JouleForce know-how aligns cooling efficiency straight with the chip’s wants. This permits Bitcoin miners to function effectively the place different programs merely can’t.
Actual-World Validation and Scalability
Unlocking a New Period of Mining
JouleForce know-how empowers Bitcoin miners to:
- Function in excessive climates with consumption air temperatures as much as 120°F.
- Eradicate reliance on water-based cooling infrastructure.
- Scale back power consumption whereas maximizing efficiency and profitability.
This innovation addresses the thermal limitations of recent mining {hardware}. It units a brand new normal for effectivity and sustainability, paving the way in which for the way forward for Bitcoin mining in underdeveloped, energy-abundant areas.
customers can see the Demonstration of the Bitmain S19 Professional Hydro Operating in Scottsdale, AZ at 105°F right here:
About Pressured Physics
Forced Physics makes a speciality of pioneering thermal administration applied sciences. Its patented JouleForce cooling know-how permits unmatched cooling efficiency utilizing solely air, making it ideally suited for high-density electronics and energy-efficient options.
About A.R.T. Digital Holdings Corp.
A.R.T. Digital Holdings Corp. is a pacesetter in energy-efficient computational know-how, devoted to changing electrical power into computational output for world knowledge transmission. Underneath the management of CEO Greg Bachrach, A.R.T. Digital Holdings Corp.’s options are pioneers that meet various knowledge processing wants by progressive, sustainable practices within the Digital Power business.
Contact
Chief Technique and Innovation Workplace
Brian Snyder
A.R.T. Digital Holding Corp
[email protected]
