Archives for: 2005
Impact of Connection Splitting on TCP Performance
"Technical Report: Impact of Connection Splitting on TCP Performance," Arpith Chacko Jacob, Rahul Pratap Maddimsetty 2005.
http://www.arpith.com/media/papers/tcpcc.pdf
Abstract: In this project, we investigate the effect of splitting a single TCP connection into several shorter connections taking the same route. The main motivation for these experiments is to study the inherent tendency of TCP to favour (i.e. facilitate achievement of higher throughput on) connections with lower RTT. We observe that TCP indeed performs significantly better on connections with low RTT, and hence are able to speedup a file transfer between two nodes by adding one or more intermediate nodes.
The performance metrics used to compare the TCP performance of the direct connection to that of the the split connections are the Total Transfer time, Average RTT and Throughput. We study this effect for various file sizes, link qualities and number of intermediate nodes. Planet-Lab was used to run a large number of experiments for this analysis.
Ultrasound over USB
"Technical Report: Ultrasound over USB," Arpith Chacko Jacob, Brandon Harris, Todd Bumgarner 2004.
http://www.arpith.com/media/papers/usb-ultrasound.pdf
Abstract— The project implements two designs on the Xilinx Spartan-II FPGA using an FTDI USB1.1 IC. The first design is a simple loopback that receives data from the host via the USB and retransmits it back to the host PC. The second design transmits selected scan data from an ultrasound backend to the PC host, supporting a maximum of 5 frames per second. To achieve acceptable frame rates on a USB1.1 bus, the amount of data transferred was cut down by a factor of four by selecting the sample closest to each pixel. VHDL was used to describe the hardware design, which was simulated with ModelSim and synthesized using the Xilinx tools. Linear interpolation was used to generate a 512 x 512 image from the scanned data.