============================================================================= DRAFT DRAFT DRAFT DRAFT DRAFT DRAFT DRAFT DRAFT DRAFT DRAFT ============================================================================= EBONE Line and Site Installation Specification EBONE Action Team Bernhard Stockman February 24, 1992 This paper gives a recommendation of the initial physical EBONE installation. Lines and sites are defined. Necessary upgrades and router installations are specified. Finally the required funding to make this possible is mapped to confirmed EBONE contributions. The paper does not cover necessary router configurations and mangement of the EBONE. CONTENT 1. EBONE Line Specification. 1.1 Topology. 1.2 Basic Line Layout. 2. Detailed Line Descriptions. 2.1 CERN - AMSTERDAM 2.2 AMSTERDAM - STOCKHOLM 2.3 STOCKHOLM - LONDON 2.4 LONDON - MONTPELLIER 2.5 MONTPELLIER - CERN 2.6 CERN - CORNELL 2.7 LONDON - WASHINGTON 2.8 STOCKHOLM - CORNELL 3. Detailed Site Description. 3.1 LONDON 3.2 AMSTERDAM 3.3 STOCKHOLM 3.4 MONTPELLIER 3.5. CERN 4. Actions Needed for Lines and Sites 4.1 EBONE Lines. 4.2 EBONE Sites. 5. Mapping of financial requirements 5.1 General EBONE financial contributions. 5.2 Usage of Router Contributions. 5.3 Usage of EBONE financial contributions. 5.4 Base for financial calculations. 1. EBONE Line Specification. 1.1 Topology. /-- Datanet /--- TIPnet /---- SWIPnet 512 Kbps /----- NORDUnet USA <-------------- Stockholm E / \ / \ / \ 256 Kbps / \ 512 Kbps / \ / \ / \ 512 Kbps / \ USA <--------- London E E Amsterdam /| |\ JANET ----- / | | \------- SURFnet ICRF ------/ | | \------ Belgium EARN, | 512 Kbps | \ EASInet and EUnet. | | \---- RedIRIS, RCCN | | \--- UCD (via IXI) | 256 Kbps | \-- ULB (via IXI) | | \- YUNAC (via IXI) | | \ EUnet Montpellier E-----------------E CERN / 256 Kbps / \ FORTH ---/ / \----- SWITCH / \---- EARN / \--- ACOnet / \-- ARIADNEt 1544 Kbps / \- ILAN USA <----------------------------/ NOTE: XLINK to EBONE connectivity is not yet defined. 1.2 Basic Line Layout. Recommended Line Bandwidth CERN - Amsterdam 512 Kbps Amsterdam - Stockholm 512 Kbps Stockholm - London 256 Kbps London - Montpellier 256 Kbps Montpellier - CERN 256 Kbps London - Washington 512 Kbps Stockholm - Cornell 512 Kbps CERN - Cornell 1544 Kbps 2. Detailed Line Descriptions. 2.1 CERN - AMSTERDAM This line is shared among SURFnet, EASInet, HEPnet and EUnet and the current bandwidth is 256 Kbps. As this line currently have a high utilization and to conform to the EBONE, an upgrade to 512 is needed. Cost estimations (based on Eurodata Handbook, October 1990). Local loops and installation costs not included. Bandwidth 256 Kbps Amsterdam HC 90 KECU/a CERN HC 70 KECU/a Total: 160 KECU/a Bandwidth 512 Kbps Amsterdam HC 150 KECU/a CERN HC 120 KECU/a Total: 270 KECU/a Of the SURFnet contribution of 300 KECU, around 100 KECU is already locked in the SURFnet share of the current 256 Kbps installation. It is recommended that additional 110 KECU is reserved from general EBONE financial contributions to make the proposed upgrade possible. 2.2 AMSTERDAM - STOCKHOLM This line is shared among NORDUnet, EASInet and EUnet. The bandwidth is currently 256 Kbps. Nordic Carriers have made a contribution of 512 Kbps HC between Stockholm and Amsterdam. By adding the today used money from NORDUnet on the other half-channel it will be possible to upgrade this line to 512 Kbps. Cost estimation (based on information from STI, December 1991). Local loops and installation costs not included. Bandwidth 256 Kbps Amsterdam HC 90 KECU/a Stockholm HC 81 KECU/a Total: 171 KECU/a Bandwidth 512 Kbps Amsterdam HC 155 KECU/a Stockholm HC 119 KECU/a Total: 274 KECU/a It is recommended that NORDUnet together with Nordic Carriers make the necessary arrangements for an upgrade to 512 Kbps. 2.3 STOCKHOLM - LONDON This line does currently not exist. Contributions has been made from Tele2/SWIPnet on 256 Kbps half-channel. By using the current NORDUnet funds of 33 KECU for the Stockholm - London line, NORDUnet - Europe connectivity will be improved as was conditionally stated in the NORDUnet contribution. Cost estimation (based on information from STI, December 1991). Local loops and installation costs not included. Bandwidth 256 Kbps London HC 97 KECU/a Stockholm HC 81 KECU/a Total: 178 KECU/a Bandwidth 512 Kbps London HC 165 KECU/a Stockholm HC 119 KECU/a Total: 284 KECU/a It is recommended that this line is implemented with a bandwidth of 256 Kbps. If not possible to find additional financial support for the London half-channel, 97 KECU must be reserved from general EBONE financial contributions (including the NORDUnet 33 KECU mentioned above). If further additional resources is made available it is recommended that this line is upgrade to 512 Kbps to conform to the nominal EBONE bandwidth. 2.4 LONDON - MONTPELLIER This line does currently not exist. If implemented it will give improved connectivity for the France national and international connections as well as regional networks connected to the EBONE via the Montpellier EBONE Boundary System. The line will also increase the robustness and resilience of the EBONE core as such. Cost estimations (based on information from BTI, January 1992). Local loops and installation costs not included. Bandwidth 128 Kbps London HC 39 KECU/a Montpellier HC 40 KECU/a Total: 79 KECU/a Bandwidth 256 Kbps London HC 77 KECU/a Montpellier HC 70 KECU/a Total: 147 KECU/a Bandwidth 512 Kbps London HC 133 KECU/a Montpellier HC 124 KECU/a Total: 257 KECU/a It is recommended that 147 KECU is reserved from general EBONE financial contributions to implement this line at 256 Kbps. 2.5 MONTPELLIER - CERN This line is currently owned by EARN France with a bandwidth of 128 Kbps. An upgrade to at least 256 Kbps will be needed. By using the current EARN funds for the current 56 Kbps Montpellier - US line, EARN to US connectivity will by this be improved as was conditionally stated in the EARN contribution. Cost estimation (based on information from CERN, January 1992). Local loops and installations costs not included. Bandwidth 128 Kbps. Montpellier HC 40 KECU/a CERN HC 45 KECU/a Total: 85 KECU/a Bandwidth 256 Kbps. Montpellier HC 70 KECU/a CERN HC 71 KECU/a Total: 141 KECU/a Bandwidth 512 Kbps Montpellier HC 124 KECU/a CERN HC 123 KECU/a Total: 247 KECU/a It is recommended that, assuming that current financing of the 128 Kbps bandwidth remain as is, the additional 56 KECU is reserved from general EBONE financial contributions to upgrade to 256 Kbps. It is also recommended that the Montpellier - CERN line is installed using a pure cisco to cisco solution. If additional funding is made available it is recommended that the line is upgraded to 512 Kbps to conform to the EBONE nominal bandwidth. 2.6 CERN - CORNELL This line has T1 or 1544 Kbps bandwidth. It is fully owned by IBM/EASInet. The line interconnects the NSS10 in Cornell Ithaca and NSS10 at CERN. The bandwidth is sufficient so no upgrade is needed. 2.7 LONDON - WASHINGTON This line currently has 512 Kbps bandwidth. The line is multiplexed with 128 Kbps for NASA, RAL and Oxford (DECNET) and 384 Kbps for NSF, DARPA, JNT, RAL and Oxford. On the 384 part also BBN butterfly gateways are used for support of the ST protocol (video-conferencing). It is recommended that the possibilities of an upgrade to T1/E1 capacity for the EBONE connectivity is investigated. 2.8 STOCKHOLM - CORNELL This line is fully owned by NORDUnet on the European side and by NSF on the US side. 512 Kbps is available for the EBONE. The line connects KTH to Cornell. It is recommended that the possibilities of an upgrade to T1/E1 capacity for the EBONE connectivity is investigated. 3. Detailed Site Installation Description. 3.1 LONDON 3.1.1 EBONE Connectivity. The London EBONE Boundary System will connect Stockholm, Montpellier and Washington. 3.1.2 Regional Connectivity. The London EBONE Boundary System will connect JANET and ICRF. It is recommended that UCD is connected directly to the London EBONE Boundary System using a 64 Kbps leased line. 3.1.3 Housing. The London EBONE Boundary System will be placed at the ULCC. 3.1.4 Site Installation Overview. Stockholm ! ! ! !----!----! ! !---------- JANET Washington -----! CISCO !---------- ICRF ! AGS+ !---------- UKnet ! ! !----!----! ! ! ! Montpellier 3.1.5 Hardware Configuration. Chassis : CISCO AGS+ Processor : CSC3 processor Memory : 4 Mbyte RAM Interfaces : 2 4T cards, 1 2E2T card 3.1.6 Need for EBONE CISCO Contribution. It is recommended that one of the contributed CISCO's is used to implement the London EBONE Boundary System. 3.2 AMSTERDAM 3.2.1 EBONE Connectivity. The Amsterdam EBONE Boundary System will connect Stockholm and CERN. 3.2.2 Regional Connectivity. The Amsterdam EBONE Boundary System will connect SURFnet, Belgium (EARN, EASInet and EUnet) and RedIRIS via leased lines. UCD, ULB and YUNAC via IXI. IXI will be connected via the a Dutch PTT who manages the IXI switch in Amsterdam. RCCN will be connected to Madrid via IXI. 3.2.3 Housing. The Amsterdam EBONE Boundary System will be placed at WCW. 3.2.4 Site Installation Overview. Belgium(EARN,EASInet,EUnet) ! Stockholm ! RedIRIS, RCCN ! ! ! !-----!------! !--!------!--! ! scan-gw ! ! ibr-router !---- CERN !-----!------! !------------! ! ! ===!==!============!=======!=======!=== IBR-LAN ! ! ! !------!------! !-----!------! !-----!------! ! snet-router ! ! hef-router ! ! nl.eu.net ! !------!------! !-----!------! !-----!------! ! ! ! SURFnet (IXI) EUnet UCD,ULB YUNAC 3.2.5 Hardware Specification. Current router installation is judged sufficient. In the (near?) future sara1-router.sara.nl, currently connected to the IBR-LAN, will be removed. In this view scan-gw and ibr-router may form the EBONE Boundary System and the other three are regional connections. As scan-gw is not an CISCO AGS+ it could be beneficial to move the NORDUnet connection to the ibr-router. 3.2.6 Need for EBONE CISCO Contributions. As already installed equipment will be used in implementing the Amsterdam EBONE Boundary System there will be no need for EBONE contributed CISCO's. 3.3 STOCKHOLM 3.3.1 EBONE Connectivity. The Stockholm EBONE Boundary System will connect Amsterdam, Cornell and London. 3.3.2 Regional Connectivity. The Stockholm EBONE Boundary System will connect NORDUnet, Tele2/SWIPnet and Nordic Carriers. 3.3.3 Housing. The Stockholm EBONE Boundary System will be placed at KTH. 3.3.4 Site Installation Overview. DENET !--- Danish PTT ! FUNET !--- Finnish PTT London ! ! SUNET !--- Norwegian PTT ! ! ! ! SURIS !--- Swedish PTT USA ! SWIPnet ! ! ! ! UNINETT ! ! ! ! ! ! ! ! ! ! !-- TIPnet ! ! ! ! ! ! ! ! ! ! !--!----!----!--! !-!--!--!--!--!-! !--!----!-------! ! EBS-I ! ! EBS-II ! ! EBS-III ! ! Nordunet ! ! DECNET-IV ! ! Frame Relay ! ! access ! ! CLNS ! ! ! ! control ! ! LLC2 Bridging ! ! ! !-------!-------! !-------!-------! !-------!-------! ! ! ! ========!=========!==========!====================!======== ! !----!----! ! EBS-IV ! !----!----! ! Amsterdam EBS-I To be able to have access control on the NORDUnet traffic being forwarded to the USA and also to have possibility to gather statistics on that traffic, such control is implemented in EBS-I. This EBS will be provided by SWIPnet. EBS-II NORDUnet connected networks will connect not only via the EBONE officially accepted production traffic protocol, TCPIP, but also via DECNET-IV, CLNS and LLC2 bridging. This functionality is provided in EBS-II. This EBS will be provided by NORDUnet. EBS-III Frame Relay is the requested interface protocol to be used in connecting the Nordic Carriers to the Nordic EBS. To be allow for an unrestricted amount of Frame Relay PVC's without risking an overload of the Nordic EBS, this functionality is implemented in EBS-III. EBS-IV This EBS does not have any extra functionality besides what has been stated in the EBONE EBS technical specification and could hence be regarded as "the" EBS in the Nordic EBS configuration. This EBS is needed to give stable EBS - EBONE access independent of the other Nordic EBS's having different kinds of other functionalities which should not have possibility of impacting the EBONE functionality. 3.3.5 Hardware Configuration. Chassis: : CISCO AGS+ chassis Processor : CSC3 processor Memory : 4 Mbyte RAM Interfaces : 4 4T cards, 1 2E2T card 3.3.6 Need for EBONE CISCO Contributions. One CISCO in the above installation is currently missing. 3.4 MONTPELLIER 3.4.1 EBONE Connectivity. The Montpellier EBONE Boundary System will connect CERN and London. 3.4.2 Regional Connectivity. The Montpellier EBONE Boundary System will connect EARN France and FORTH 3.4.3 Housing. The Montpellier EBONE Boundary System will be placed at CNUSC. 3.4.4 Site Installation Overview. London CERN ! ! ! ! !--!---!--! ! CISCO !-----FORTH ! AGS+ ! !----!----! ! ! EARN France 3.4.5 Hardware Configuration. Chassis : CISCO AGS+ Processor : CSC3 processor Memory : 4 Mbyte RAM Interfaces : 2 4T cards, 1 2E2T card. 3.4.6 Need for EBONE CISCO Contributions. It is recommended that one of the contributed CISCO's is used to implement the Montpellier EBONE Boundary System. 3.5. CERN CERN will initially connect as a separate management system not being part of the EBONE management domain. CERN will according to their position statement see to that networks connecting to CERN also will have possibility to connect to the EBONE. For these reasons, the CERN router(s) involved in the connection to EBONE, cannot yet be labeled EBONE Boundary System(s) and are rather referred to as "virtual EBONE Boundary System" 3.5.1 EBONE Connectivity. The CERN virtual EBONE Boundary System will connect Amsterdam, Montpellier and Cornell. 3.5.2 Regional Connectivity. The CERN virtual EBONE Boundary System will connect SWITCH, ACOnet, GMD/Bonn, ARIADNEt and ILAN. 3.5.3 Housing. The CERN virtual EBONE Boundary System will be placed at CERN. 3.5.4 Site Installation Overview. GMD/Bonn ! ! !----!----! Amsterdam ------! CERN ! ------ ACOnet ! Virtual ! ------ SWITCH Cornell ------! EBS ! ------ ARIADNEt !--!---!--! ! ! ! ! Montpellier ILAN 3.5.5 Hardware Configuration. Will be owned and managed by CERN 3.5.6 Need for EBONE CISCO Contributions. No need as CERN will implement the required connectivity. 4. Actions needed for Lines and Sites to Implement the EBONE. Each entry below has the form: Line/Site : Involved line or site. Organ. : Affected organizations. Action : Needed actions. Contr. : Needed contributions. 4.1 EBONE Lines. Line : Amsterdam - CERN. Organ. : SURFnet, SARA and CERN. Action : Order upgrade of Amsterdam - CERN to 512 Kbps. Contr. : SURFnet, EUnet. 110 KECU additional funding needed. Line : Stockholm - Amsterdam. Organ. : NORDUnet, Nordic Carriers, CWI, SARA and KTH. Action : Order upgrade of Amsterdam - Stockholm to 512 Kbps. Contr. : NORDUnet, Nordic Carriers. No additional funding needed. Line : Montpellier - CERN. Organ. : EARN France, CNUSC, CERN. Action : Order upgrade of Montpellier - CERN to 256 Kbps. Contr. : CNUSC, EARN France. 56 KECU additional funding needed. Line : Stockholm - London Organ. : Tele2/SWIPnet, KTH, ULCC. Action : Order and install 256 Kbps line. Contr. : Tele2/SWIPnet. 97 KECU additional funding needed. Line : Montpellier - London Organ. : EARN/France, ULCC Action : Order and install 256 Kbps line. Contr. : 147 KECU additional funding needed. 4.2 EBONE Sites. Site : Stockholm. Organ. : NORDUnet, Tele2/SWIPnet, Nordic Carriers, KTH. Action : Restructuring of EBONE connections. : Ordering and installation of regional connections. : An CISCO has to be found. Contr. : NORDUnet, Tele2/SWIPnet, Nordic Carriers, KTH. : No additional funding needed. Site : London. Organ. : ULCC, JANET, ICRF. Action : Ordering and installation of CISCO AGS+. : Restructuring of EBONE connections as needed. : Ordering and installation of regional connections as needed. Contr. : JANET. Additional CISCO AGS+ needed. Site : Amsterdam. Organ. : SURFnet, SARA, CWI, NIKHEF, Dutch PTT. Action : Restructuring of EBONE connections as needed. : Ordering and installations of regional connections as needed. : Implement IXI connectivity to the EBONE Boundary System. Contr. : SURFnet, SARA, CWI, NIKHEF, Dutch PTT. No additional funding needed. Site : Montpellier. Organ. : EARN France. Action : Ordering and installation of CISCO AGS+ : Restructuring of EBONE connections as needed. : Ordering and installations of regional connections as needed. Contr. : EARN France. Additional CISCO AGS+ needed. 4.3 Time schedule Current Transition steps Ready Rout & Addr ------------------- -------- ---------------------- -------- ----------- Stockholm EBS Ready Sthlm-Lndn line 0 installation 256 wk 17 London EBS C. ordered wk 19 wk 19 Lndn-Mop line 0 installation 256 ????? Montpellier EBS C. ordered, inst spare wk 19 wk 19 Mop-CERN line 256 move to C.-C. wk 19 CERN vEBS reconfig wk 20 wk 19 discuss CERN-Asd line 256 inst 512 and IDNX wk 20 Amsterdam EBS may things wk 18 wk 18 Asd-Sthlm line 256 inst 512 wk 16 5. Mapping of financial requirements to confirmed contributions. 5.1 Confirmed general EBONE financial contributions. This lists the currently known contributions that can be used to satisfy requirements for additional funding as listed above. ACOnet 10 KECU SURFnet 300 KECU EARN 85 KECU (conditionally for EARN-US connectivity over EBONE) NORDUnet 33 KECU (conditionally for NORDUnet - Europe connectivity). XLINK 10 KECU UCD 8 KECU SURFnet 4 CISCO AGS+ Total of confirmed contributions: 446 KECU + 4 CISCO AGS+ 5.2 Recommended Usage of Confirmed Router Contributions. Of the 4 contributed CISCO's from SURFnet, one CISCO is already in use on the SARA - CERN line. Remains three CISCO's for use in the EBONE. Recommended usage: London EBONE Boundary System 1 CISCO AGS+ Montpellier EBONE Boundary System 1 CISCO AGS+ Total need: 2 CISCO AGS+ This will be fully covered with SURFnet contribution of remaining three CISCO AGS+. The additonal CISCO not recommended for installation now should be kept for future needs. 5.3 Recommended Usage of confirmed general EBONE financial contributions. Of the contributed 300 KECU from SURFnet, around 100 KECU is already allocated in the current SARA - CERN 256 Kbps line. Of the total EBONE financial contributions remains 346 KECU for use in the EBONE. Amsterdam - CERN upgrade to 512 Kbps 110 KECU Stockholm - London installation at 256 Kbps 97 KECU Montpellier - CERN upgrade to 256 Kbps 56 KECU Montpellier - London installation at 256 Kbps 147 KECU Total general EBONE financial contributions needed: 410 KECU There is hence a need to secure at least 64 KECU additional fundings (assuming no additional costs for local loops and installations has to be covered with the contributed money) to fulfill this plan. If further additional funds are made available above recommendations may have to be reconsidered. 5.4 Base for financial calculations. The below table where used in all above calculations. All costs in KECU. !-----------------------!-----------------------!-----------------------! ! 128 Kbps ! 256 Kbps ! 512 Kbps ! !-----!-----------------------!-----------------------!-----------------------! ! a-b ! HC(a) ! HC(b) ! Tot ! HC(a) ! HC(b) ! Tot ! HC(a) ! HC(b) ! Tot ! !-----!-------!-------!-------!-------!-------!-------!-------!-------!-------! ! A-C ! ---- ! ---- ! ---- ! 90 ! 70 ! 160 ! 150 ! 120 ! 270 ! !-----!-------!-------!-------!-------!-------!-------!-------!-------!-------! ! S-L ! ---- ! ---- ! ---- ! 81 ! 97 ! 178 ! 119 ! 165 ! 284 ! !-----!-------!-------!-------!-------!-------!-------!-------!-------!-------! ! C-M ! 45 ! 40 ! 85 ! 71 ! 70 ! 141 ! 123 ! 124 ! 247 ! !-----!-------!-------!-------!-------!-------!-------!-------!-------!-------! ! M-L ! 40 ! 39 ! 79 ! 70 ! 77 ! 147 ! 124 ! 133 ! 257 ! !-----!-------!-------!-------!-------!-------!-------!-------!-------!-------! ! A-M ! 47 ! 40 ! 87 ! 83 ! 70 ! 153 ! 130 ! 124 ! 254 ! !-----!-------!-------!-------!-------!-------!-------!-------!-------!-------! HC = Half-Channel A = Amsterdam C = CERN L = London M = Montpellier S = Stockholm