Shelf slot port
This means T3 controller connected to this Cisco AS access server in shelf 1, slot 4, port 0 is up. The controller's state can be up, down, or administratively down. The drive in shelf 2, bay 11, connected to onboard port 0a is named 0a The drive in shelf 6, bay 3, connected to an HBA in slot 1, port c, is named 1c Feb 09, · About your question for the WSS provisioning on photonic, Input Power Source TID-shelf-slot-port Displays the TID-shelf-slot-port of CARSANDINSURANCE.INFOs: 1.
Configure and Troubleshoot CT3 on Cisco AS5000
In UIM, you can represent equipment in several ways. The unused portion of the T1 bandwidth, when it is not running at full T1 speeds, cannot be used, and is filled with idle channel data. Trunk-card slot numbering starts from the motherboard, and works up from left to right. The information captured in a Logical Device Account specification depends on the account that you are modeling. One end of a T1 circuit must provide the clock source. Far-end receive failure—Lights to indicate a far-end receive failure on the CT3 line. Any unused time slots are filled with programmable idle-channel data.
The interface can provide up to 28 T1 lines a single T3 group. Each T1 line is presented to the system as a serial interface that can be configured individually. Each T1 line can be unchannelized or channelized for serial transmission of data. Each of the T1 lines can use the whole T1 bandwidth, a portion of the T1 bandwidth, or the T1 bandwidth in channelized form for data transmission. Usable bandwidths for each T1 line are n x 56 kbps or n x 64 kbps, where n is a number that represents time slots 1 to The unused portion of the T1 bandwidth, when it is not running at full T1 speeds, cannot be used, and is filled with idle channel data.
Aggregation of multiple T1 lines is not supported. T1 lines on the PA-MC-T3 are numbered 1 to 28, instead of the more traditional zero-based scheme 0 to 27 used with other Cisco products. This is to ensure consistency with telco numbering schemes for T1 lines within channelized multi-channel T3 equipment. The T3 section of the PA-MC-T3 supports the maintenance data link channel when c-bit parity is used , as well as payload and network loopbacks.
BERT is typically done over an unframed T1 signal. For cable information, see the Cables, Connectors, and Pinouts section in the Overview: Any of the 28 T1 lines can be configured as channelized T1 lines. You can group the time slots in these T1 lines into several individual logical channel groups, each of which carries data with different data-link layer protocol encapsulations.
Each logical channel group can be composed of individual kbps or kbps time slots, or individual time slots plus ranges of time slots. For example, a channel group might be composed of time slots 1, 9, and Each logical channel group can contain from 1 to 24 time slots maximum.
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Primary State See Table on page. Secondary State See Table on page. This field is set automatically when a. Management - Alarm Clearing , Primary State See Table on page Sets the primary state of the facility. IS and OOS are selectable. Secondary State See Table on page Displays the facility operational state. Maximum Frequency THz Channel Width GHz numeric value Sets the channel width of the channel. Minimum Frequency THz The value is the difference between the maximum frequency and the channel width.
Minimum Frequency Limit THz numeric value Indicates the limit of expansion of the channel for the minimum frequency. Maximum Frequency Limit THz numeric value Indicates the limit of expansion of the channel for the maximum frequency. This field is set automatically when a channel is created, and should not be modified by the user.
Facility must be OOS to edit this parameter. Target Switch Selector default to the value of the switch selector Displays the port setting of switch selector when the targeted channel is connected to the WSS.
Controller Output Power dBm numeric value Displays the measured power at the output of the booster. Controller Target Power dBm to 24 default Sets the power to be launched at the output of the booster. Not applicable if the CHC mode is Loss.
Applicable to Fixed Grid mode only. For a non opaque channel, target loss is set to the current drive of pixel upon transition from IS to OOS. Sets the desired loss across switch-input to common-output port of WSS.
When i rebooted the computer, it was a brick. But before i rebooted i transferred the bios backup, the new bios, and Asus DOS-based flash utility to another computer.
Now the problem is how to fix it. But that doesn't work. There have been scores of people with the same issue, if only I had known before hand. It wiped it clean, loaded the new one, and then it couldn't verify. At this point your only two options are quit or retry. So I retry, now it won't even try to write the bios. Having no other choice I rebooted the machine and hoped for the best. I got the worst. The machine wouldn't do anything. The motherboard is supposed to have a built in bios recovery mode, but it seems that was wiped out as well by the Windows flash utility.
It was time to send it back to ASUS so they could reflash it. The bios isn't removable, so surely there's some kind of device they plug into to reflash it for you I thought. It turns out I was right. After a lot research I stumbled upon a few pages linked at the bottom that documented the type of cable necessary and the software to use this port to reflash the bios.
The cable consists of a parallel connector wired to something you can plug into the pins that also has a 2. I made a really bad attempt at using a chopped up parallel cable and the ends from a USB header port thing. This didn't work out well so I found at the local electronics store a parallel connector with a ribbon cable on it. I took it apart and re-soldered the ribbon to the correct pins. I then wired this to the ribbon cable and hooked the power connector into another running machine. I then used my laptop to flash to bios.
This really seems like the easiest thing to use. They look like this:. Here is a table showing which header pins should be connected to what parallel pins. Here's what my cable looks like Note: If you use a cable similar to mine, open it up and desolder the ribbon from the connector. Take a paper clip and stick it into the holes in the header connector to determine which lead needs to go to what pin on the DB25 using your multimeter. Solder each lead appropriately. You then need to get a 5V line from another computer The Red wire on a molex connector.