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- Transport flow optimization (TFO)
TFO improves application packet flow under unfavorable WAN conditions such as packet loss and small initial windows while helping to ensure fairness. - Data redundancy elimination (DRE)
DRE is an advanced form of network compression that uses a bidirectional database to store previously seen TCP traffic and replace redundant patterns with very small signatures. DRE can provide up to 100:1 compression depending on the data being examined. - Adaptive, persistent, session-based compression
This type of compression can provide up to an additional 5:1 compression. - Protocol acceleration
Application-specific latency is reduced through a variety of application-layer techniques such as read-ahead, operation prediction, connection reuse, message multiplexing, pipelining, and parallelization, resulting in LAN-like performance despite deployment over a WAN. - Content prepositioning
You can use centralized policy-based file distribution and prepositioning can be used to push files to edge WAAS devices, accelerating software patch distribution and file access for all users. - Easy-to-deploy live video with edge-stream splitting
Automated edge-stream splitting helps ensure that only one video stream is downloaded over the WAN, regardless of the number of users in the branch office who are viewing that stream. - Recorded video on demand (VoD)
VoD files can be published using prepositioning on edge WAAS devices. - Server offload
Live and on-demand video features offer server-offload capabilities that can enable up to a 10-tenfold reduction in the number of data center video servers.
Transport flow optimization (TFO)
TFO improves application packet flow under unfavorable WAN conditions such as packet loss and small initial windows while helping to ensure fairness. - Data redundancy elimination (DRE)
DRE is an advanced form of network compression that uses a bidirectional database to store previously seen TCP traffic and replace redundant patterns with very small signatures. DRE can provide up to 100:1 compression depending on the data being examined. - Adaptive, persistent, session-based compression
This type of compression can provide up to an additional 5:1 compression. - Protocol acceleration
Application-specific latency is reduced through a variety of application-layer techniques such as read-ahead, operation prediction, connection reuse, message multiplexing, pipelining, and parallelization, resulting in LAN-like performance despite deployment over a WAN. - Content prepositioning
You can use centralized policy-based file distribution and prepositioning can be used to push files to edge WAAS devices, accelerating software patch distribution and file access for all users. - Easy-to-deploy live video with edge-stream splitting
Automated edge-stream splitting helps ensure that only one video stream is downloaded over the WAN, regardless of the number of users in the branch office who are viewing that stream. - Recorded video on demand (VoD)
VoD files can be published using prepositioning on edge WAAS devices. - Server offload
Live and on-demand video features offer server-offload capabilities that can enable up to a 10-tenfold reduction in the number of data center video servers.
Cisco Wide Area Application Services (WAAS) currently provides a scalable, high-performance WAN optimization solution. Cisco WAAS can improve the end-user experience and reduce bandwidth for applications, including Microsoft Exchange, Citrix XenApp and XenDesktop, SAP, IBM Lotus Notes, NetApp SnapMirror, HTTP and Secure HTTP (HTTPS), cloud, and file applications.