1 / 46

TDC 461: Wide Area Network Services

TDC 461: Wide Area Network Services. DePaul University 22 May, 2001. Frame Relay PVCs, CIR and Pricing Packetized Voice Voice over IP Over the Internet Over Frame Relay. SS7 Integrated Services Digital Networks (ISDN) Basic Rate Interface (2B + D) Primary Rate Interface (23B + D) DSL

ganit
Download Presentation

TDC 461: Wide Area Network Services

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. TDC 461: Wide Area Network Services DePaul University 22 May, 2001

  2. Frame Relay PVCs, CIR and Pricing Packetized Voice Voice over IP Over the Internet Over Frame Relay SS7 Integrated Services Digital Networks (ISDN) Basic Rate Interface (2B + D) Primary Rate Interface (23B + D) DSL Cable Modems Agenda

  3. Frame Relay • Telecommunications carriers maintain networks of Frame Relay switches • Customer get access line to nearest switch to get Frame Relay service • Higher data rates than X.25 • Lower delays, higher throughputs and better security than the Internet

  4. Frame Relay Basics • Frame Relay = “Son of X.25” • Frame Assembler/Disassemblers (FRADs) • Similar to X.25 PADs

  5. Frame Relay Basics • Frame Relay = “Son of X.25” - except: • Data only sent over Permanent Virtual Circuits (PVCs), which are set up by the carrier, not customer - always available! • Customer can access network at data rates from 56 Kbps to 45 Mbps ! • No error control done by network switches (error control is responsibility of customer)

  6. Frame Relay Basics • Frame Relay = “Son of X.25” - except: • Fixed monthly price based on • “Port charge” • “PVC charge” • Frame Relay is a layer 2 protocol, so

  7. Frame Relay Setup • Typically used to replace leased lines: • Customer gets one Frame Relay PVC to replace each leased line • Customer still gets guaranteed delay and throughput (CIR) similar to leased line • Customer uses one access line at each business location for all frame relay data • Customer saves money - PVCs cost less than leased lines

  8. Leased Line Problem: Number of leased circuits (and cost!) grows very large as number of sites increases!!

  9. The Frame Relay Solution: 1 Access Line for each site!!

  10. Frame Relay Addressing • The carrier assigns each PVC a 10-bit Data Link Connection Identifier (DLCI). • Customer sets up a table in each access router that maps each possible destination to its DLCI. • Router puts correct DLCI into each frame header before sending frame into network.

  11. CIR • For each PVC, customer specifies a Committed Information Rate (CIR): • CIR represents a guaranteed throughput for this PVC • Carrier also guarantees limited data delivery time if customer does not exceed CIR • Price of PVC is directly related to CIR • High CIR = • Low CIR =

  12. CIR • Example: • I have a T1 (1.536 Mbps) access line into the frame relay network in Chicago • I ask my carrier to create a PVC from Chicago to Dallas with CIR = 512 Kbps. • If I stay within my CIR (i.e., send less than 512,000 bps Chicago-Dallas, on average): • Carrier guarantees 99.99% traffic gets through • Carrier guarantees <= 20 ms. Network delay

  13. Frame Relay PVCs with CIRs

  14. Frame Relay Pricing • Example: • 4 sites, each with T1 access line • 6 PVCs providing connectivity between sites, with 512 Kbps CIR on each PVC • Monthly Costs: • 4 x (T1 access port cost) plus • 6 x (512 Kbps PVC cost)

  15. What if I exceed my CIR? • Example: • I have a T1 (1.536 Mbps) access line into the frame relay network in Chicago • I ask my carrier to create a PVC from Chicago to Dallas with CIR = 512 Kbps. • Isn’t it possible for me to exceed my CIR (send more than 512 Kbps Chicago-Dallas)? • YES!!!!!

  16. What if I exceed my CIR? • Burst Rate (Br) • Discard Eligible (DE) bit

  17. The Tradeoff • Low CIR ==> • High CIR ==> • Note: Many customer still choose to pay lowest cost by selecting a Zero CIR option that provides no delivery guarantees

  18. Frame Relay vs. The Internet • Frame Relay advantages: • Frame Relay disadvantages

  19. Voice over IP • Voice can be send over packet-switched networks in the following manner:

  20. Voice Over the Internet

  21. Voice over Frame Relay • Voice samples can also be carried in IP packets over Frame Relay networks • Advantages of Voice over Frame Relay

  22. Voice over Frame Relay • Many businesses today are using spare capacity on their Frame Relay networks to send voice between business sites.

  23. Typical IP Voice Packet IP/UDP Header Voice Header Voice Information 28 bytes 6 bytes 40 bytes

  24. PSTN Internet IP Telephony Using a Computer as the Terminal Gateway Microphone CMTS Cable Modem Router Cable Modem Termination System

  25. IP Telephony Using Phone Adapter PSTN Internet Gateway Telephone Adapter CMTS Router Cable Modem

  26. PBX Extender Switch Unit PBX Corporate Intranet Internet Gateway PSTN Telephone Adapter CMTS Router Cable Modem

  27. SS7 • Defined: • Pre SS7

  28. SS7- Out of Band Signaling • What is it? • Why do it?

  29. SS7 Interconnection • Defined: • Links and Linksets • Routes and Routesets

  30. SS7 Call Setup • ISUP • SS7 Applications

  31. ISDN • The Idea: • Provides a fully-digital interface over current telephone lines • Allows customer to do both 64 Kbps dial-up and X.25 data over same ISDN line • Provides intelligent signaling channel (D-channel) between customer equipment and Central Office

  32. ISDN - Types of Interfaces • ISDN Basic Rate Interface • ISDN Primary Rate Interface

  33. Basic Rate Interface (2B+D) • 3 logical channels on one access loop: • 2 B-channels (64-Kbps) used for • 1 D-channel (16-Kbps) used for • Low Cost:

  34. ISDN BRI • The Customer Requires: • Network Termination Type 1 (NT1) • ISDN-Compliant devices • The Central Office Requires: • ISDN Line Card • Terminates ISDN line at the Central Office and separates B channels and D channel

  35. ISDN Equipment

  36. Basic Rate Interface • Up to 8 devices can connect to single BRI through an NT1 • Central Office determines which device has control over which B-channel at any time.

  37. BRI Applications • Work-at-Home: Simultaneously use • Internet Access • Low-cost Business Videoconferencing • Low-speed dial-up LAN Interconnection

  38. Primary Rate Interface (23B+D) • Primary Rate Interface is an enhanced T-1 circuit.

  39. PRI Advantage over T-1 • Any PRI B-channel can be set up “call-by-call” to provide any service • In contrast, each DS0 channel on a T-1 must be statically allocated to carry only a single voice or data service.

  40. PRI Applications • Integrated business services. • Delivery of Caller ID / ANI (D-channel). • High-speed videoconferencing. • Medium-speed LAN interconnection. • Dial-up data channels with flexible bandwidth (N x 64 Kbps).

  41. Digital Subscriber Lines • xDSL=> • Asymmetric DSL=> • Hype

  42. DSL Modems • Standards • Security

  43. Broadband Cable • Cable Modems • Standards • Security

  44. DSL vs. Cable • Contention for network • Network control • Scalability

More Related