High Speed File Transfer Protocol' title='High Speed File Transfer Protocol' />FTP Replacement l Aspera Fast File Transfer Software. With the explosive growth of unstructured data across virtually all industries from digital media creation in the entertainment industry to genomic sequencing for scientific research  fast and reliable movement of massive digital data over global distances is vital to business success. Individuals and teams need to collaborate daily across global distances, requiring high speed distribution, sharing, and exchange of multi terabyte data sets around the world. However, changes to TCP the Internets underlying transfer protocol developed in the 1. Unable to take full advantage of modern high bandwidth networks, TCP is unsuitable to the demands of todays big data applications. Attempts at TCP acceleration have delivered only incremental improvements that cannot overcome the inherent design flaws in the core protocol. Asperas patented FASP transfer technology is an innovative software that eliminates the fundamental shortcomings of conventional, TCP based file transfer technologies such as FTP and HTTP. As a result, FASP transfers achieve speeds that are hundreds of times faster than FTPHTTP and provide a guaranteed delivery time regardless of file size, transfer distance or network conditions, including transfers over satellite, wireless, and inherently unreliable long distance, international links. FASP also provides complete visibility into bandwidth utilization and extraordinary control over transfer rates and bandwidth sharing with other network traffic. High Speed File Transfer Protocol' title='High Speed File Transfer Protocol' />Complete security is built in, including secure endpoint authentication, on the fly data encryption, and integrity verification. TCP CHALLENGEThe Transmission Control Protocol TCP provides reliable data delivery when deployed on low latency and low packet loss networks, but it quickly becomes unreliable and slow with increased packet loss and latency that are typical of long distance WANs. Adding more bandwidth does not change the effective throughput. File transfer speeds do not improve and expensive bandwidth is underutilized. The source of the throughput bottleneck is TCPs flow rate control mechanism in which the sender requires an acknowledgement for each data packet sent to the receiver. If an acknowledgement does not arrive back on time due to high network latency or packet loss, the sender assumes that its sending rate is too fast for the receiver to handle, severely reduces it and recovers it slowly. As a result, transfer rate slows to a crawl and the modern high bandwidth WAN pipes are significantly underutilized. FASP SOLUTIONIn contrast to TCP, FASP throughput is independent of network latency and robust to extreme packet loss that can be found on intercontinental WANs and on satellite, Wi Fi or cellular connections. This data sheet describes the benefits, specifications, and ordering information for the Cisco EtherSwitch 4 and 9Port HighSpeed WAN Interface Cards. The table below lists properties that are available in all protocols, as theyre defined in the superclass of all protocols, org. Protocol. AN878 QUICK START The SPI controller program SPIController. SPI enabled. Running this program opens a window. The result is transfer times that are hundreds of times faster than standard FTP and highly predictable, regardless of network conditions. To achieve this performance, FASP does away with TCPs coupling of rate control and reliability, with a unique and patented approach that enables maximum transfer speeds, without compromising congestion avoidance, and achieves ideal efficiency and full bandwidth utilization. Images/screenshots/SU/Administration/AdminMainScreen_300.png' alt='High Speed File Transfer Protocol' title='High Speed File Transfer Protocol' />BENEFITSMaximum Transfer Speed. FASP enables large data set transfers over any network at maximum speed, source disk to destination disk, regardless of network conditions or distance. For example, over gigabit WANs with 1 second RTT and 5 packet loss, FASP achieves 7. Mbps file transfers on high end PCs with RAID 0 and 4. High Speed File Transfer Protocol' title='High Speed File Transfer Protocol' />Mbps transfers on commodity PCs. Large data sets of small files are transferred with the same efficiency as large single files. The implementation is very lightweight, and thus does not require specialized or powerful hardware in order to maintain high speeds or high concurrency. Full utilization of available bandwidth. Free Online Chota Bheem Cricket Games. In addition to significant transfer rate gains, FASP is able to fully utilize the available bandwidth, maximize use of the existing infrastructure and eliminate costly upgrades that may not even benefit TCP based protocols. Configurable fair play to standard TCP traffic. While FASP can fill any available bandwidth, it also includes an intelligent adaptive transmission rate control mechanism that throttles down for precision fairness to standard TCP traffic, and automatically ramps back up to fully utilize the unused bandwidth. Audatex Program Demo. This ensures that business critical TCP traffic such as email, web, and business applications can function normally while allowing FASP to utilize unused bandwidth. EXTRAORDINARY BANDWIDTH CONTROLThe patented rate control allows  extraordinary dynamic control over transfer speeds and bandwidth sharing applications and end users can pre set and change on the fly individual bandwidth priorities, transfer rates and finish times, without the support of network Qo. S. Bullet proof security. The FASP protocol also provides comprehensive built in security model that does not compromise transfer speed. Based on open standards cryptography, it provides SSH end point authentication, on the fly data encryption with the option to store files encrypted on the receivers end, and data integrity verification that protects against man in the middle, re play, and UDP denial of service attacks.