Green Computing

The Crypto Climate Accord’s overall objective is to decarbonize the global crypto industry by prioritizing climate stewardship and supporting the entire crypto industry’s transition to net-zero greenhouse gas emissions by 2040.

The Accord has two specific interim objectives:

1. Achieve net-zero emissions from electricity consumption for CCA Signatories by 2030.

2. Develop standards, tools, and technologies with CCA Supporters to accelerate the adoption of and verify progress toward 100% renewably- powered blockchains by the 2025 UNFCCC COP30 conference.

The Crypto Climate Accord will create wins for both the planet and the global economy. For climate advocates, they can eliminate emissions from a fast-growing source of electric load. For the cleantech industry, they can onboard an entirely new class of customers with significant demand for low-carbon solutions. For the crypto industry, they can help support widespread adoption of crypto by making the industry more sustainable.

Solidus Ai Tech HPC data centre infrastructure will run highly efficient algorithms. From the initial consultation, we will be able to clarify how we can optimise for maximum effectiveness for each application and how our customized HPC environments would work for the clients’ needs. At the core of our business, we ensure reliability and security to our clients and do so in a cost-effective and environmentally friendly manner.

Our secure, sustainable computing environment is the perfect solution for anyone prioritising climate goals and carbon targets – we utilise evaporating air cooling technology. The advantages of evaporative cooling are well documented. This energy-efficient, environmentally friendly technology consumes 80% less energy than compressor air conditioning, can lower the air temperature by up to 12 degrees, improves air quality by removing dust, fumes and unpleasant odors and does not require the closing of doors or windows . HPC is already consuming large portions of the world’s available energy, with various air-cooling solutions consuming up to 30%–40% of the total energy deployed. Hence, there is an urgent need to deploy sustainable solutions.

By using a special software algorithm and customized hardware architecture, one high-performance AI HPC uses similar power to a household light bulb, and all the materials are renewable. The heat generated by the machines will be channeled to our production facility to provide warmth during the cold season.