| SiS
HyperStreaming architecture brings the concept of
low latency, concurrency, pipelining, real time
channel accessing and smart arbitration mechanisms
into chipset architecture. HyperStreaming makes
single streams with lower latency than other platforms
that reduce the response time of all accesses. The
devices in the HyperStreaming architecture can be
issued in pipeline or concurrently because there
are parallel architecture interfaces inside it.
The real time accesses and the HyperStreaming Technology
Architecture downloading of current music and films,
as they are playing, can be prioritized with high
priority streams routed through specific stream
paths in the HyperStreaming architecture. Smart
Stream flow control can also be applied to fully
utilize the use of queues inside the HyperStreaming
chipset architecture. On the other hand, performance
can also be boosted by increasing the number of
streams issued after efficient use of queues inside
the architecture. Smart Streaming can also prioritize
Non-post and Response streams to reduce both waiting
time of CPUs and devices. As well, streams can be
tagged continuously by Smart Streaming to reduce
buffering, hence reducing the cost of buffers, and
increase the speed of accesses thus enhancing the
performance. The inclusion of the four described
major functions of the HyperStreaming architecture
in SiS chipset will make it superior to other chipsets
as demonstrated with popular benchmarks and measuring
tools. Conclusively,
the SiS HyperStreaming platform reduces all possible
bottlenecks inside chipsets and makes them efficient
in networking accesses, real time accesses, downloading
of media streams and the use of office software
tools. By taking advantage of the chipset, customers
will be blessed with a faster system that consumes
less power thus making their multimedia experience
more enjoyable.
Fig.1. Architecture of traditional
computer system. |
