Synergy

Wouldn’t you like to consolidate legacy hierarchical architectures based 50Gb architecture or do you need to increase data throughput and reduce latency with only a single hop within large domains of virtual machines or compute modules?

The HPE Synergy 50Gb Interconnect Link Module part of the HPE Synergy composable fabric extends satellite frame connectivity back to the primary frame. Based on disaggregated, rack-scale design, it uses a primary/satellite architecture to consolidate data center network connections, reduce hardware and scale network bandwidth across multiple HPE Synergy Frames.

The primary module contains intelligent networking capabilities that extend connectivity to frames equipped with satellite modules. This reduces top of rack switch need and substantially decreases costs. The reduction in components simplifies fabric management at scale while consuming fewer ports at the data center aggregation layer.

Wouldn’t you like to consolidate legacy hierarchical architectures based on north/south design with over-subscription bottlenecks into a flat, east/west architecture to increase data throughput and reduce latency with only a single hop within large domains of virtual machines or HPE Synergy Compute Modules?

The HPE Virtual Connect SE 100Gb Module for Synergy provides the latest performance for your demanding workloads including 25/50 Gb downlink speeds, 100 Gb uplinks, and 16/32 Gb converged Fiber Channel. Its dis-aggregated, rack-scale design uses a primary/satellite architecture to consolidate data center network connections, reduce hardware and scale network bandwidth across multiple HPE Synergy Frames.

The primary module contains intelligent networking capabilities that extends connectivity to satellite frames through Interconnect Link Modules. This decreases top of rack switch needs and substantially reduces costs.

With the world's edge expanding in devices, is your data center struggling to consolidate, manage, and analyze large workloads without compromising performance?

HPE Synergy 480 Gen10 Plus Compute Module is a powerful, software-defined solution that gives you a single interface for command, control, and deployment for all IT resources for any workload. Create pools of flexible compute capacity that can be configured almost instantly to rapidly provision infrastructure for a broad range of applications, giving you the flexibility to easily adapt to changing needs. Powered by Intel® Xeon® Scalable Family of processors, upgraded memory, more storage capacity and controllers, and a variety of GPU options within a composable architecture, the HPE Synergy 480 Gen10 Plus Compute Module delivers performance, efficiency, and flexibility of a 2-socket workhorse to support some of the most demanding workloads.

What if you could connect HPE Synergy primary and satellite interconnect modules with the flexibility to use either copper or optical cables? The HPE Synergy Interconnect Link Cable is designed for the HPE Synergy composable fabric which connects pools of compute resources. It links multiple frames through connecting the primary module to the satellite module. It gives you the flexibility to choose either direct attached copper cable (DAC) or active optical cable (AOC) with different length.

Wouldn’t you like to consolidate legacy hierarchical architectures based 20Gb architecture or do you need to increase data throughput and reduce latency with only a single hop within large domains of virtual machines or compute modules?

The HPE Synergy 20Gb Interconnect Link Module part of the HPE Synergy composable fabric extends satellite frame connectivity back to the primary frame. Based on disaggregated, rack-scale design, it uses a primary/satellite architecture to consolidate data center network connections, reduce hardware and scale network bandwidth across multiple HPE Synergy Frames.

The primary module contains intelligent networking capabilities that extend connectivity to frames equipped with satellite modules. This reduces top of rack switch need and substantially decreases costs. The reduction in components simplifies fabric management at scale while consuming fewer ports at the data center aggregation layer.

Wouldn’t you like to consolidate legacy hierarchical architectures based on north/south designs with oversubscription bottlenecks into a flat, east/west architecture to increase data throughput and reduce latency with only a single hop within large domains of virtual machines or compute modules?

The HPE Synergy 40Gb F8 Switch Module primary module, based on composable fabric is designed for Composable Infrastructure. Its disaggregated, rack-scale design uses a primary/satellite architecture to consolidate data center network connections, reduce hardware and scale network bandwidth across multiple Synergy frames. This primary module, contains managed switch networking capabilities that extend connectivity to satellite frames through Synergy Interconnect Link Modules that decreases top of rack switch needs and substantially reduces cost. The reduction in components also simplifies fabric management while consuming fewer ports at the data center aggregation layer.

Wouldn’t you like to consolidate legacy hierarchical architectures based on north/south design with oversubscription bottlenecks into a flat, east/west architecture to increase data throughput and reduce latency with only a single hop within large domains of virtual machines or Synergy Compute Modules?
The HPE Virtual Connect SE 40Gb F8 Module for HPE Synergy, primary module, based on composable fabric is designed for Composable Infrastructure. Its disaggregated, rack-scale design uses a primary/satellite architecture to consolidate data center network connections, reduce hardware and scale network bandwidth across multiple HPE Synergy Frames.
The primary module contains intelligent networking capabilities that extends connectivity to satellite frames through Interconnect Link Modules. This decreases top of rack switch needs and substantially reduces costs. The components reduction simplifies fabric management at scale while consuming fewer ports at the data center aggregation layer.