Here are some packet overhead numbers for a few popular protocols to help with doing bandwidth requirement calculations.  This may be another add-as-we-go post, so please comment with additions or corrections.

Ethernet : 20 bytes
Frame Relay : 4 - 6 bytes
PPP : 6 bytes
MLPPP: 10 bytes
MPLS : 4 bytes

IP : 20 bytes

TCP : 20+ bytes
UDP : 8 bytes
GRE:  4 - 20+ bytes

More study notes.  Correct if wrong, though I hope I get some of it right since I already since I’m an R&S guy.  :$

**Switchport Configuration
**

• switchport mode access:  This config makes the port an access port that carries the primary and voice VLAN traffic
• switchport mode trunk:  This config akes the port a trunk unconditionally, but it will still send DTP messages
• switchport nonegotiate:  This config keeps the port from sending DTP messages.
• switchport mode dynamic auto:  If the port receives DTP messages, it will become a trunk.  If not, it will be an access port.
• switchport mode dynamic desirable:  The port actively sends DTP messages trying to become a trunk.  This is the default configuration on a Cisco switch.

Cisco IP Phone Boot Process

These are some of my notes on my IIUC studies.  Since I am a novice as voice stuff, please let me know what I get wrong.

An ephone is a representation of a phone.  It’s basically a structure of features that a phone will have. 

Configuration in CME:

R1(config)#ephone 34  <– This is just a tag and has nothing to do with an extension or phone
R1(config-ephone)#mac-address 1111.2222.3333    <– Assigns this ephone to the phone with that MAC address

Feel free to correct anything that is wrong or incomplete.

• Power over Ethernet (PoE)

  • Can provide power to a Cisco phone, access point, security camera, etc., through the network cabling, eliminating the need to plug the phone into the wall for power.
  • Generic term for providing power on the Ethernet cable
  • Provides centralized power that can be put on a UPS
  • Allows devices to be located away from power outlets
  • Removes cabling clutter at the user’s desk
  • Can be provided through PoE-enabled switches, power panels or inline couplers (power injectors)
  • Oversubscription is common
    • If every device on a switch asks for full power, the switch may not be able to handle the load.
  • Of course, devices can be powered with a power brick at the desk

• 802.3af

Have you even noticed that your new servers all have 2 NICs on the board?  At least all of them that I’ve seen in the last 3 years have.  A lot of server admin actually use them in a NIC teaming scenario where both NICs are used as one logical device – much the same as Etherchannel on a switch.  This provides some fault tolerance and availability in case of failure, which is good idea in most cases.

If you need to buy an Ethernet cable, you’ll pay quite a premium for it at your local CompUSA or Circuit City. $22.99 for a 7’ Ethernet cable is terrible. For just a few dollars more, you can buy a 250’ roll of cable and make 35 of them yourself. You’ll need to invest in a good crimper and some RJ45 heads as well, but that cost is quite small compared to how much you can save by making your own.