4G Transmission Design Ericsson RAN A Wilding 24th June 2013
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Transmission Design 4/25/16
Confidentiality level on title master Version number on title master
Contents 1. 4G 1. 2. 3. 4. 5. 6. 7. 8. 9.
4G & Beacon Physical Connection 4G IP-Sec Tunnel Connections 4G VRFs with IP-Sec Mocn 4G RBS IP-addressing, one in-service DUL with IP-Sec (Rel13A) Mocn 4G RBS IP-Sec Tunnels, one in-service DUL (Rel13A) Moran 4G RBS IP-addressing, two DUL with IP-Sec (Rel13B) Moran 4G RBS IP-Sec Tunnels, two DUL (Rel13B) 4G RBS IP-addressing, two DUL without IP-Sec 4G VRFs without IP-Sec
2. Beacon 2G and 3G 10. Beacon 2G and 3G VRFs 11. Beacon RBS 2G and 3G IP-addressing
3. Beacon 2G, 3G and 4G Requirements 12. 13. 14. 15. 16. 2
Beacon RBS Synchronisation distribution Beacon 2G, 3G and 4G RBS IP-addressing Requirements Vf 4G MTX IP-addressing Requirements Beacon 2G, 3G and 4G RBS VLAN Requirements Beacon 2G, 3G and 4G Access Network VLAN Requirements Presentation title in footer 4/25/16
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4G & Beacon Physical Connections MTX A
BEP 1.0 8660
CPN
ASR9000
ASR9000
BSC CSG OSS-RC
Access Network
RNC Firewall
RBS6000 ASR9000
Sec-GW
CPN
ASR9000
BEP 1.0 8660 The Cell Site Gateway, CSG, can be one of the following: • C&W 8605 • BEP 1.0: 8630 or 8660 • BT 8605 (layer 2) • BEP 2.0: A2200 or FP800 (layer 2)
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P/S-GW
SSU 2000: PTP Grand Master
Tef EPC Sec-GW MME
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EPC
MME
MTX B
4G & Beacon physical connections, 4G only encrypted MTX A BEP 1.0
8660
CPN
ASR9000 BSC
8630 CSG Non-Beacon RNC
Access Network (BT, CWW, BEP 2.0)
OSS-RC MTX Beacon RNC Firewall
BEP 1.0 Sec-GW
RBS6000
CPN
ASR9000
8630 8660
P/S-GW
ASR9000
EPC
Telefonica MTX
Sec-GW
Tef CPN
4
B
Huawei 4G Beacon Transmission Design Confidentiality level on slide master Version number on slide master 4/25/16
MME
Tef EPC
MME
4G IP-Sec Tunnel Connections MTX A
BEP 1.0 8660
CPN
ASR9000
ASR9000
BSC CSG OSS-RC
Access Network VVff 44G G SS11,, X X22 && OA OAM M
& SS11 &
XX22
The Cell Site Gateway, CSG, can be one of the following: • C&W 8605 • BEP 1.0: 8630 or 8660 • BT 8605 (layer 2) • BEP 2.0: A2200 or FP800 (layer 2)
Ericsson 4G Transmission Design 4/25/16
Firewall ASR9000
G 4G TTeeff 4
RBS6000
5
RNC
Sec-GW
CPN
BEP 1.0 8660
ASR9000
P/S-GW
Tef EPC Sec-GW MME
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EPC
MME
MTX B
4G VRFs with IP-Sec BEP 1.0 8660
MTX A
SSU 2000 GMs
CPN ASR9000
ASR9000
RBS6000
Access Network
OSS-RC
IP_E _Ac ces s_4 G_V f (S IP_E 1, X _Ac 2& cess OAM _4G (S1 ) _Te &X f 2)
RNC
ASR9000 RAN_Encrypt
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Ericsson 4G Transmission Design 4/25/16
CPN
EF _T
The Cell Site Gateway, CSG, can be one of the following: • ITN 901 • BEP 1.0 8605 for CWW EWL • BEP 1.0: 8630 or 8660 • BT 8605 (layer 2) • BEP 2.0: A2200 or FP800 (layer 2)
AN R
BEP 1.0 8660
Tef CPN Sec-GW MME
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Firewall CH M O AN_ Sec-GWR OAM)ASR9000 (4G
4G _S 1
CSG
BSC
P) PT ( nc Sy
EPC
P/S-GW
MME
MTX B
Mocn 4G RBS IP-addressing, one in-service DUL with IP-Sec (Rel13A) SSU 2000: PTP GM
RBS 6000 Vf DUL MP x.x.x.0/31 y.y.y.6 x.x.x.1/31
d.d.d.66
SIU/TCU 510
Access Network
y.y.y.5
y.y.y.4/30
y.y.y.2
NPU
R Tef DUL y.y.y.10 511 MP x.x.x.2/31 y.y.y.8/30
BEP 1.0 86xx
y.y.z.2 d.d.d.2
500: y.y.y.0/30
d.d.d.64/30 d.d.d.65
BEP 1.0 8660
y.y.y.1
600: y.y.z.0/30
y.y.z.1
1588: d.d.d.0/30
d.d.d.1
R
BEP 1.0 IP Access ASR9000
y.y.y.9
x.x.x.m/32 EPC
NPU
MME
y.y.y.gw/32 Sec-GW
OAM CP/UP (S1 & X2)
Tef EPC
CPN
OAM service will be between x.x.x.0 & x.x.x.om, and x.x.x.2 & x.x.x.om Sec-GW z.z.z.gw/32 MME Vf S1 & X2 CP/UP service to MME will be between x.x.x.1 and x.x.x.m z.z.z.m/32 Tef S1 CP/UP service to their MME will be between x.x.x.1 and z.z.z.m x.x.x.0 and x.x.x.1 are from the same /31: x.x.x.0: even address, x.x.x.1: odd address x.x.x.om/32 The Vf and Tef S1 (& X2) services both use the same inner and outer IP-address on the Vf DUL OSS-RC PTP service will not be encrypted and will be between y.y.y.6 and d.d.d.66 via VLANs 510 and 1588. 7
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P/S-GW
Mocn 4G RBS IP-Sec Tunnels, one in-service DUL (Rel13A) RBS 6000 Vf DUL MP x.x.x.0/31 y.y.y.6 x.x.x.1/31
SIU/TCU 510 y.y.y.4/30
R
y.y.z.2
BEP 1.0 8660
y.y.y.1
y.y.y.2
NPU
Tef DUL y.y.y.10 511 MP x.x.x.2/31 y.y.y.8/30
BEP 1.0 86xx
Access Network
y.y.y.5
SSU 2000: PTP GM
500: y.y.y.0/30 600: y.y.z.0/30
y.y.z.1
BEP 1.0 IP Access
R
ASR9000
y.y.y.9
x.x.x.m/32 EPC
NPU
y.y.y.gw/32
MME
Sec-GW
OAM CP/UP (S1 & X2)
Tef EPC
Vf IP-Sec Tunnel Tef IP-Sec Tunnel
CPN Sec-GW
MME
z.z.z.gw/32
z.z.z.m/32 Vf 4G S1, X2 & OAM IP-Sec Tunnel will be between y.y.y.6 & y.y.y.gw, Vf 4G OAM IP-Sec Tunnel for the Tef DUL will be between y.y.y.10 & y.y.y.gw x.x.x.om/32 Tef 4G S1 IP-Sec Tunnel will be between y.y.y.6 and z.z.z.gw OSS-RC The Vf and Tef IP-Sec tunnels to the in-service DUL use the same outer IP-address on the DUL 8
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P/S-GW
Moran 4G RBS IP-addressing, two DUL with IP-Sec (Rel13B) SSU 2000: PTP GM
RBS 6000 Vf DUL MP x.x.x.0/31 y.y.y.6
SIU/TCU 510
y.y.y.2
NPU
R Tef DUL y.y.y.10 511 MP x.x.x.2/31 y.y.y.8/30 z.z.z.2 x.x.x.3/31
NPU
610
BEP 1.0 86xx
y.y.y.5
y.y.y.4/30
x.x.x.1/31
d.d.d.66
y.y.z.2 d.d.d.2
Access Network 500: y.y.y.0/30 600: y.y.z.0/30 1588: d.d.d.0/30
y.y.y.1 y.y.z.1
d.d.d.64/30 d.d.d.65
BEP 1.0 8660
BEP 1.0 IP Access
R
d.d.d.1
ASR9000
y.y.y.9
x.x.x.m/32 EPC
z.z.z.1
z.z.z.0/30
MME
y.y.y.gw/32 Sec-GW
OAM
CP/UP (S1 & X2)
Tef EPC
CPN
OAM service will be between x.x.x.0 & x.x.x.om, and x.x.x.2 & x.x.x.om z.z.z.m/32 Sec-GW Vf CP/UP service to MME will be between x.x.x.1 and x.x.x.m z.z.z.gw/32 Tef CP/UP service to MME will be between x.x.x.3 and z.z.z.m MME z.z.z.0/30, z.z.z.gw/32 and z.z.z.m/32 are IP-addresses allocated by Telefonica x.x.x.0 and x.x.x.1 are from the same /31: x.x.x.0: even address, x.x.x.1: odd address x.x.x.om/32 x.x.x.2 and x.x.x.3 are from a shared /31: x.x.x.2: even address to Vf; x.x.x.3: odd address to Tef OSS-RC PTP service will not be encrypted and will be between y.y.y.6 and d.d.d.66 via VLANs 510 and 1588. 9
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P/S-GW
Moran 4G RBS IP-Sec Tunnels, two DUL (Rel13B) RBS 6000 Vf DUL MP x.x.x.0/32 y.y.y.6
SIU/TCU 510
x.x.x.1/32
y.y.y.2
NPU
R Tef DUL y.y.y.10 511 MP x.x.x.2/31 y.y.y.8/30 z.z.z.2 x.x.x.3/31 1
NPU
610
BEP 1.0 86xx
y.y.y.5
y.y.y.4/30
y.y.z.2
SSU 2000: PTP GM
Access Network 500: y.y.y.0/30 600: y.y.z.0/30
BEP 1.0 8660
y.y.y.1 y.y.z.1
BEP 1.0 IP Access
R
ASR9000
y.y.y.9
x.x.x.m/32 EPC
z.z.z.1
z.z.z.0/30
y.y.y.gw/32
MME
Sec-GW
OAM CP/UP (S1 & X2)
Tef EPC
Vf IP-Sec Tunnel Tef IP-Sec Tunnel
CPN Sec-GW
MME
z.z.z.gw/32
z.z.z.m/32 Vf 4G S1, X2 & OAM IP-Sec Tunnel will be between y.y.y.6 & y.y.y.gw, Vf 4G OAM IP-Sec Tunnel for the Tef DUL will be between y.y.y.10 & y.y.y.gw Tef 4G IP-Sec Tunnel will be between z.z.z.2 and z.z.z.gw 10
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x.x.x.om/32
OSS-RC
P/S-GW
4G RBS IP-addressing, two DUL without IP-Sec (Bespoke designs for Padd and Newbury) SSU 2000: PTP GM
RBS 6000 Vf DUL y.y.y.6 MP
d.d.d.66
SIU/TCU
501 y.y.y.4/30
NPU
x.x.x.2 510 x.x.x.1 x.x.x.0/30
x.x.x.2
R Tef DUL y.y.y.10 511 MP y.y.y.8/30 z.z.z.2
NPU
610
BEP 1.0 86xx
y.y.y.5
y.y.y.2 y.y.z.2 d.d.d.2
Access Network 500: x.x.x.0/30 550: y.y.y.0/30 600: y.y.z.0/30 1588: d.d.d.0/30
d.d.d.64/30 d.d.d.65
x.x.x.1 y.y.y.1
BEP 1.0 8660
R
BEP 1.0 IP Access
y.y.z.1 d.d.d.1
ASR9000
y.y.y.9
x.x.x.m/32 EPC
z.z.z.1
z.z.z.0/30
MME
OAM CP/UP (S1 & X2)
Tef EPC
OAM service will be between y.y.y.6 & y.y.y.om, and y.y.y.10 & y.y.y.om Vf CP/UP service to MME will be between x.x.x.2 and x.x.x.m MME z.z.z.m/32 Tef CP/UP service to MME will be between z.z.z.2 and z.z.z.m z.z.z.0/30 and z.z.z.m/31 are IP-addresses allocated by Telefonica PTP service will be between x.x.x.2 and d.d.d.66 via VLANs 510 and 1588. If only one DUL, sync to SIU can be SyncE and sync to DUL can be 1pps via GPS_Port. 11
Ericsson 4G Transmission Design 4/25/16
CPN
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y.y.y.om/32
OSS-RC
P/S-GW
4G VRFs without IP-Sec Vodafone MTX
OSS-RC
SSU CSG
Access Network RBS6000
TP) c (P Syn IP_E_Access_4G _Vf_MTX IP_E_Access_4G 8660 _Tef_MTX
BEP 1.0
Firewall
CH RAN_OM
) (4G OAM
ASR9000
CPN RA N_ Tef
S1 4G_
ASR9000 P/S-GW
EPC
MME
Telefonica MTX Sec-GW
The Cell Site Gateway, CSG, can be one of the following: • C&W 8605 • BEP 1.0: 8630 or 8660 • BT 8605 (layer 2) • BEP 2.0: A2200 or FP800 (layer 2)
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Tef CPN
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MME
Tef EPC
Beacon 2G and 3G VRFs MTX A
BEP 1.0 8660
CPN RAN_UNencrypt
CSG
is) (Ab X _MT _2G s s c ce E_A _ P I
ASR9000
ASR9000
BSC
Access Network
MTX B
RNC
RBS6000
IP_E_ Acce ss_3G _Iub_ IP_E MTX _Acc ess_ 3G_O AM_M TX
BEP 1.0 8660
encrypt RAN_Un RA N_ OM CH
Firewall
The Cell Site Gateway, CSG, can be one of the following: • C&W 8605 • BEP 1.0: 8630 or 8660 • BT 8605 (layer 2) • BEP 2.0: A2200 or FP800 (layer 2)
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Sec-GW
OSS-RC
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CPN
ASR9000
Beacon RBS 2G and 3G IP-addressing RBS 6000 DUW1 a.a.a.6 b.b.b.6
SIU/TCU a.a.a.5
110 : a.a.a.4/30 210 : b.b.b.4/30
a.a.a.2 b.b.b.2
b.b.b.5
R DUW2 a.a.a.10 b.b.b.10
c.c.c.2
Access Network 100: a.a.a.0/30 200: b.b.b.0/30 400: c.c.c.0/30
BEP 86xx, CWW CSG a.a.a.1 b.b.b.1 c.c.c.1
R
a.a.a.9
111 : a.a.a.8/30
c.c.c.4/32
211 : b.b.b.8/30
b.b.b.9
• IP-Sec available on 2G from Rel T14A (Jan 2014) • IP-Sec available on 3G from Rel 14B (June 2014) –planned release, not committed
3G OAM 3G Iub 2G Abis
All Physical connections shown are 1000BaseT In Larger sites a third DUW will be directly connected to the SIU and use VLANs 112 and 212. If required a further DUW will be cascaded via 1000BaseT from one of the existing DUWs. 2G DUGs Traffic and Sync will be via 2xE1s per DUG from the SIU; Packet Abis terminates on the SIU. SIU OAM will use the 3G OAM address: a.a.a.2, and will route with the 3G OAM traffic to OMCH VRF.
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Beacon RBS Synchronisation distribution RBS 6000
DUG
SIU/TCU
CSG SyncE
DUW
DUW Access Network
Vf DUL
Tef DUL
Synchronisation input to the SIU is SyncE from the CSG. Sync distribution to the 3G DUW will be via E1, whilst traffic is 1000BaseT. Traffic and Sync distribution to the 2G DUGs will be via E1s from the SIU. Synchronisation to the Vf 4G DUL will be 1588v2 from Grand Masters in the MTX. Synchronisation to the Tef DUL will be distributed from the Vf DUL via 1pps using the GPS ports If two DUs share the same radio then sync between the DUs via 1pps using the GPS ports is required
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SSU 2000 GMs
E1 1000BaseT 1pps PTP: 1588v2
Beacon 2G, 3G and 4G RBS IP-addressing Requirements External address between TCU/SIU and Transport network
External address between TCU/SIU and 3G DUWs
• Five Vf /30s for PTP, 2G, 3G and 4G services, and one Vf /30 for Tef 4G traffic:
• There will be two directly connected DUWs in a large site, and two cascaded
– – – – – –
PTP (1588v2 synchronisation over packet) 2G 3G OAM (including SIU OAM) 3G Iub Vf 4G (S1, X2, OAM) Tef 4G (S1 X2)
– One /30 for Iub per directly connected DUW – One /30 for OAM per directly connected DUW
Internal addresses on TCU/SIU – One Vf /32 to terminate packet Abis – Note that the ‘SIU/TCU OAM’ uses the 3G OAM external /30 interface address
Addresses between TCU/SIU and 4G DUL • Configuration supporting two DULs, one for Vodafone and one for Telefonica, will require: – One Vf /30 for S1, X2, OAM and PTP for the Vf DUL – One Vf /30 for OAM for the Tef DUL – One Tef /30 for S1/X2 for the Tef DUL – Note that each DUL supports both L800 and L2600
Internal addresses on DUL • Configuration supporting two DULs, one for Vodafone and one for Telefonica, will require: – One Vf /31 for the Vf DUL (for OAM (even) and S1/X2 (odd)) – One shared /31 for the Tef DUL (even address = OAM to Vf; odd address = S1/X2 to Tef) (*) – (*) alternative design for the Tef DUL Internal addresses: – One Vf /31 for the Tef DUL OAM – One Tef /31 for the Tef DUL S1/X2
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Vf 4G MTX IP-addressing Requirements • Internal /32 addresses required for Vf in the MTX • 1x /32 per tunnel on Sec-GW • 1x /32 on MME • 1x /32 on OSS-RC • External /30 addresses required for Vf in the MTX • 1x /30 between BEP 1.0 8660 and SSU 2000 PTP GM
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Beacon 2G, 3G and 4G RBS VLAN Requirements VLANs between the RBS and the CSE • 3G OAM 100 • 3G Iub 200 • 2G 400 • 4G Access (carries S1, X2 & OAM) 500 • 4G Access CP/UP Tef (carries S1 & X2) 600 • PTP 1588
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Beacon 2G, 3G and 4G Access Network VLAN Requirements Customer VLANs across BT and BEP 2.0 • 3G OAM odd numbers starting from 1 (range 1 – 999) • 3G Iub even numbers starting from 2 (range 2 – 1000) • 2G sequential numbers, range 2001 - 2400 • PTP C&W CSG sequential numbers, range 2401 - 2700 • PTP E/// eNodeB sequential numbers, range 2701 - 3000 • BEP 2.0 DCN range 3001 - 3100 • Vf 4G 3101 – 3700 • Tef 4G 3701 – 4000 C&W Service VLANs • C&W Service sequential numbers, range 1001 – 1400 • C&W Redundant Path sequential numbers, range 2001 – 2400
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Not Covered in this Presentation • S1-flex
Pre-requisites • XPIC deployment in BEP 1.0 Microwave Rings
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