"... In PAGE 9: ... The USB device must have a storage capacity of at least 256 MB. Table1 on page 9 lists USB devices supported for use with the J-series routers. Table 1: Supported USB Devices on the J-series Services Routers... ..."

"... In PAGE 11: ... To remove the effects of large latencies due to infrequent system activity, we sample the latency for 100 transac- tions to the device and compute the average. Table1 shows the latencies incurred in various stages of accessing local VBD, RVBD, and NBD devices, re- spectively. The time spent in Frontend, Netbus, and Backend is approximately similar for RVBD and NBD devices since they follow similar code path.... In PAGE 11: ... The time spent in Frontend, Netbus, and Backend is approximately similar for RVBD and NBD devices since they follow similar code path. It is appar- ent from Table1 that the increase in RVBD latency is due to additional time spent in the Netbus stage and the increased latency in Backend stage. The latter is due to the additional copying involved in transferring data over the network.... In PAGE 11: ... Table 2 shows the latency incurred in various stages of accessing local USB and RUSB devices respectively. The USB devices show similar behavior as the block de- vices in Table1 . The increase in IO latency for RUSB case is due to the Netbus processing and extra copying of data over the network.... ..."

"... In PAGE 62: ... 62 Table16 and Table 17 show the technical specifications of two possible CCD-based spectroradiometers to dosimeter design from OceanOptics. Both of them are very light- weight devices with a sampling frequency (inverse of integration time) more than adequate for light dosimeters where high sampling frequencies are not needed.... ..."

"... In PAGE 11: ... It is interesting to note that the latency problem of Slow Sync may not necessarily be solved by the use of faster connection interfaces, such as Firewire (IEEE 1394) [11] and USB [12], due to the corresponding increase in the storage capacity of handheld devices. Table1 compares the time required to perform a wholesale data transfer for various representative PDAs and interface technologies. We observe that a Palm Pilot (1MB storage) using a serial link to transfer its entire data to a PC will require approximately the same order of time (i.... ..."

"... In PAGE 3: ...reamble length was 6 bytes at 31.25 Kbits/sec (MIDI). Thus, for questioning a slave station we need: 6 preamble bytes + 1 question byte = 7 bytes If answer is 16 sensors on 10 bits, we need: 6 preamble bytes + 16 * (2 bytes) = 38 bytes The efficiency is then: It means that even with MIDI running status, we cannot expect a bandwidth higher than 490 Hz (0.71*692, see Table1 ) on the wireless link (i.e.... ..."

"... In PAGE 7: ... To con- struct the initial buffered clock trees, we first generate and embed the tree topology using the DME algo- rithm [5]; then we follow the buffer insertion scheme described in [21] to insert the clock buffers. The re- sults are summarized in Table1 . Columns 1 through 4 give the circuit name, the number of clock sinks, the number of clock buffers, and the number of gen- eral skew constraints.... ..."

"... In PAGE 6: ...[14] 3.3 COMPARISON Table2 shows the comparison between USB and 1394. While the two serial buses seem similar, they are in- tended to fulfill different bandwidth and cost needs.... ..."