The greatest challenge in large-scale destructive events is to have stable and accessible emergency communication systems and dynamically scalable shared pool of computing resources, including networks, storage and applications. Hosting offers availability, scalability and speed of real time information & coordination for disaster recovery.
Hosters close to the edge are faced with energy insecurity and it’s cost-rising effect. Their TCO is driven down by efficiencies in power and cooling delivered by high-density servers, liquid cooling, ongoing virtualization and server-storage convergence.
Suggested Configurations
HIRO ZX3000
| Size | # Servers | SOC | Bandwidth | # Cores | Memory/ Core | Storage/ Core |
|---|---|---|---|---|---|---|
| 2U | 64 | ARM A72 2.0GHz 6M Cache | 2x8x40 GbE up 2x32x10 GbE down | 512 | 4GB | 125GB |
| 2U | 64 | Intel Xeon D 2.0GHz 9M Cache | 2x8x40 GbE up 2x32x10 GbE down | 512 | 4GB | 125GB |
NEC DX2000
| Size | # Servers | SOC | Bandwidth | # Cores | Memory/ Core | Storage/ Core |
|---|---|---|---|---|---|---|
| 3U | 34 | Intel Xeon D 2.2GHz 6M Cache | 2x8x40 GbE up 2x34x10 GbE down | 136 | 16GB | 128GB |
| 3U | 34 | Intel Xeon D 2.2GHz 6M Cache | 2x8x40 GbE up 2x34x10 GbE down | 136 | 16GB | 64GB |
| 3U | 44 | Intel Xeon D 1.3GHz 24M Cache | 2x8x40 GbE up 2x44x10 GbE down | 704 | 4GB | 32GB |
Kaleao KMax
| Size | # Servers | SOC | Bandwidth | # Cores | Memory/ Core | Storage/ Core |
|---|---|---|---|---|---|---|
| 2U | 44 | 2.1GHz 12M Cache | 2x8x40 GbE up 2x44x10 GbE down | 352 | 8GB | 64GB |
| 2U | 22 | 2.1GHz 12M Cache | 2x8x40 GbE up 4x22x10 GbE down | 176 | 8GB | 64GB |
| 2U | 34 | 1.3GHz 24M Cache | 2x8x40 GbE up 2x44x10 GbE down | 544 | 4GB | 32GB |