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Table 1 : Comparing MIDI with USB

in Versatile Sensor Acquisition System Utilizing Network Technology
by Emmanuel Flety, Nicolas Leroy, Jean-christophe Ravarini 2004
"... 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.... ..."
Cited by 6

Table 6. USB Data Connections

in unknown title
by unknown authors 2002

Table 8. USB Channel Allocation

in unknown title
by unknown authors 2005

Table 47. USB Internal Ports

in unknown title
by unknown authors 2005

Table 1. BSBS vs. USBS

in Clock Network Sizing in Presence of Power Supply Noise
by Kai Wang, Malgorzata Marek-sadowska
"... 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.... ..."

Table 2: Comparison between USB and IEEE1394 Item USB1.1 USB2.0 1394a 1394b

in Survey on Serial Buses
by Byung-kil Moon 2002
"... 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.... ..."

Table 6: J201, USB Connector

in unknown title
by unknown authors 2003

Table 2 shows, USB-5 is almost twice as effective at de- tecting 2-bit errors, and the 3-bit error weight for USB-5 is not high enough for it to outweigh this advantage. Thus, USB-5 is superior for this BER.

in Cyclic Redundancy Code (CRC) Polynomial Selection For Embedded Networks
by Philip Koopman, Tridib Chakravarty
"... In PAGE 4: ... USB-5, on the other hand, is not divisible by (x+1) and per- forms better than CCITT-5 at all lengths above 10 bits. To understand why USB-5 does so much better in Figure 1, it is helpful to examine the weight structure at length 3151, shown in Table2 . For a BER of 10-6, most messages of length 3151 suffer zero-, 1-, or possibly 2-bit errors, with each increasing number of erroneous bits less likely.... In PAGE 4: ... Many uses of CRC-8 in current systems are therefore questionable, because they attempt to provide error detection for a large data word (such as across a long message or a large block of memory data). 4 Polynomial HD Hamming weights for number of bits corrupted: 1 bit 2 bits 3 bits 4 bits 5 bits USB-5 0x12 2 0 159 075 163 552 409 128 929 654 767 81 278 805 135 219 CCITT-5 0x15 2 0 330 435 0 257 909 068 726 0 Table2 . Weights for CCITT-5 and USB-5; data word size 3151 bits.... ..."

Table 1: Supported USB Devices on the J-series Services Routers

in unknown title
by unknown authors 2007
"... 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... ..."

Table 1: Timeline for USB 2.0 and EHCI specifications

in Manipulating Interface Standards as an . . .
by Jeffrey K. MacKie Mason, Janet S. Netz
"... In PAGE 19: ... In May 2002, the first chipsets with integrated host controllers were announced. In Table1 , we present a time-line of some of the more important developments in the history of USB 2.0.... ..."
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