CO2 Footprint

Carbon Footprint (CO2)

Minimizing the environmental impact all comes down to infrastructure agility, space, power, cooling and the challenges of efficiency without impacting operations.

Why we need to start paying attention to CO2. If we have technology that addresses the CO2 delima we need to make a conscious effort to deploy it. With CO2 we certainly can look at both sides of the coin. But the fact is CO2 has consistently been on the rise. We do know that increasing levels of CO2 create cause and effects to the environment. The natural causes prior to the human population acceleration reached a peak of 300 ppm naturally. It is inevitable that the CO2 will continue to increase organically with the increase in population and the CO2 footprint each person generates.

However, businesses also create a CO2 footprint and certain industries create a greater CO2 output than others. By May 2018, we created 2.5 quintillion bytes of data daily. With the advent of trillions of Internet of Things IoT devices data will be collected at an incredible pace – over the last two years alone 90% of the data in the world was generated.

Optimization of power usage efficiency (PUE) means if managed and controlled their is less carbon footprint. This is mandatory and is a major part of the journey of resiliency, density and effectiveness.

iPulseTM facilitates load-balancing and instantaneous provisioning

Balancing of hardware in-flight – required resources are idle (off) or active (on), as Data Center application workloads fluctuate. The appliance configurations are based upon application workload demands that react to new business climate changes in seconds, while balancing the hardware power management and the utilization via a round-robin approach to increase the life of the ecosystem and improve MTBF ratios a self-healing approach to the SDDC.

Power Management

Is in every aspect of the software IPulse OS and the FEA architecture to minimize the environmental impact of space, power and the challenges of cooling.  The elimination of the HOT|COLD aisles, the compressing of the Data Center density and the obtaining the most green hardware on the market drives the efficiencies in the journey of resiliency, density and effectiveness is the management and control to achieve a low carbon footprint.

The Global Data Centers Impact on the Environment. … “Seventeen (17%) of the total carbon footprint caused by technology is due to data centers. The electricity that is needed to run these data centers is nearly 30 billion watts. These servers waste 90 percent of the energy they use because they run on full capacity all day long, rack density is non-optimized and hot/cold aisles are required to prevent infrastructure failure rates.” 

Z-IMPACT decided upon its inception to create an environmentally responsible data center appliance and Software Defined Data Center to manage its impact. Z-IMPACT UNLEASHES THE POWER OF ISTORMCLOUD DOWNSIZE THE DATA CENTER 50-90% to reduce the electrical grid demands of the Data Center, reducing the growth of ~4,000 data centers and 100,000 MW of power required by 2020 by 90% reducing to 400 data centers and 10,000 MW, this means the current building plans would be sufficient.