TECHED BACKSTAGE 2011 David Connors Managing Director Codify Pty Ltd [email protected] @davidconnors...
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Transcript of TECHED BACKSTAGE 2011 David Connors Managing Director Codify Pty Ltd [email protected] @davidconnors...
(c) 2011 Microsoft. All rights reserved.
TECHED BACKSTAGE 2011WWW.TECHEDBACKSTAGE.NET
David ConnorsManaging DirectorCodify Pty [email protected] @davidconnors
SESSION CODE: VOC203TWITTER HASH TAG: #VOC203
Ben ParkerInfrastructure ConsultantCodify Pty [email protected]@parker_ben
(c) 2011 Microsoft. All rights reserved.
AgendaBuilding a 3000+ person enterprise in 3 weeks
► General Overview: Who are you?► How’s our driving: Facts and Figures from
2011► PART 1: TCP/IP Performance and getting your
bucks worth► PART 2: cloud.auteched.net
– Hardware– Network services and vlan provisioning– VMM 2012
(c) 2011 Microsoft. All rights reserved.
Who’s who in the zoo
► Lots of vendors (80?)► Relevant to this talk:
– JMW = MS global AoR for events– Jomablue = Logistics & project management
for technology (and nagging)– Codify = Infrastructure engineering and
propelloryhead bits
(c) 2011 Microsoft. All rights reserved.
Wins
► Keynote– ~900 concurrent wifi clients + 1-2ms pings back to
GigabitEthernet1-8.cha30.Brisbane.telstra.net at the same time
► Current wifi peak: 1781 concurrent► IP transit: Very fast/diverse► ~200 session VMs provisioned for sessions on-
demand► ~12 private networks provisioned across the
building on-demand for sessions► 0 network faults (touch melamine)
(c) 2011 Microsoft. All rights reserved.
IP Transit Providers
► Telstra – Premier Sponsor– Telstra Internet Direct Service– 1000mbps e-line terminating at Telstra CHA
exchange– IPv4
► Over The Wire – Plan B in case something goes sproing– Pipe Networks fibre terminating at Pipe DC2– 500mbps – IPv4 + IPv6
(c) 2011 Microsoft. All rights reserved.
Wifi
Australian Partner Conference 2011
TechEd 2011
Tuesday Keynote871 associations
Thursday Peak1781 associations
(c) 2011 Microsoft. All rights reserved.
random wifi dissassociations
► 20-40 random disassociations/sec (for < 10ms)
► Resolved just prior to APC with Cisco TAC (firmware upgrade with no fixes in the release notes O_o)
(c) 2011 Microsoft. All rights reserved.
Other random IP bits
► IPv4 – None left, we are all going to die…Dear David,Thank you for your email reply.There is no IPv4 address space available for temporary allocation.[ ... blah blah blah ... ]Kind RegardsTom DoInternet Resource Analyst, APNIC
► BGP Routing aut-num: AS9984as-name: MICROSOFT-TECHED-AS-APdescr: Microsoft Tech Ed Australia 2011descr: for Microsoft Tech Ed conferencedescr: http://australia.msteched.com/descr: Gold Coast Convention and Exhibition Centredescr: Cnr Gold Coast Highway & T.E. Peters Drivedescr: Broadbeachdescr: Queensland 4218country: AU
► IPv6 again – standard operating procedure now
GCCECCorporate Network
(patch for wifi)
Pipe DC2Over The Wire
IPv4 + IPv6
2
1
4
3
6
5
8
7
10
9
UTIL
STAT
DUPLX
SPEED
SYSTEM
RPSMODE
11 12
CATALYST 3550
core1
MODE
STACKSPEEDDUPLXSTATMASTRRPSSYST
Catalyst 3750 SERIES
1 2 3 4 5 6 7 8 9 10
1X
2X
15X
16X
11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26
17X
18X
31X
32X
27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42
33X
34X
47X
48X
43 44 45 46 47 48
2 4
1 3
Telstra Internet Direct CPECisco 3750G-48TS or equiv.
25 26 27 28 29 30 32 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 481 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
Mgmt
Console
Over The Wire CPEBrocade NI-CER-2048FX-RT-AC
1000BASE-TCable: Cat6 from stock
2 gbps LACP Trunk2 x 1000BASE-T
Cable: Cat 6 Cross Over Patch, 1m, Qty: 2
Telstra E-Line Single Mode Fibre Service
1 gbps
Charlotte StTelstra Internet Direct
IPv4
1000BASE-TCable: Cat6 from stock
Pipe NetworksSingle Mode Fibre Service
500mbps
Pipe CPE
2
1
4
3
6
5
8
7
10
9
UTIL
STAT
DUPLX
SPEED
SYSTEM
RPSMODE
11 12
CATALYST 3550
core2
2 gbps LACP Trunk2 x 1000BASE-T
Cable: Cat 6 Cross Over Patch, 1m, Qty: 2
Cable: 62.5/125 (OM1) Fibre, SC-LC, Len: 5m, Qty: 1
2 gbps LACP TrunkCable: 50/125m (OM3) Fibre, SC-LC, Len: 5m, Qty: 2
Cable: 62.5/125m (OM1) Fibre, SC-SC, Len: 5m, Qty: 1
MDF Patch to L4
MDF Patch to L3
MDF Patch to L2
MDF Patch to L1Cable: 62.5/125m (OM1) Fibre, SC-SC, Len: 5m, Qty: 1
Cable: 62.5/125m (OM1) Fibre, SC-SC, Len: 5m, Qty: 1Cable: 62.5/125m (OM1) Fibre, SC-SC, Len: 5m, Qty: 1
2
1
4
3
6
5
8
7
10
9
UTIL
STAT
DUPLX
SPEED
SYSTEM
RPSMODE
11 12
CATALYST 3550
core3
2 gbps LACP Trunk2 x 1000BASE-T
Cable: Cat 6 Cross Over Patch, 1m, Qty: 2
MDF Patch to G4
MDF Patch to G3
MDF Patch to G2
MDF Patch to G1
Cable: 62.5/125m (OM1) Fibre, SC-SC, Len: 5m, Qty: 1Cable: 62.5/125m (OM1) Fibre, SC-SC, Len: 5m, Qty: 1
Cable: 62.5/125m (OM1) Fibre, SC-SC, Len: 5m, Qty: 1Cable: 62.5/125m (OM1) Fibre, SC-SC, Len: 5m, Qty: 1
MDF Patch to EH4
MDF Patch to EH3
MDF Patch to EH2
MDF Patch to EH1Cable: 62.5/125m (OM1) Fibre
SC-SC, Len: 5m, Qty: 1
MDF Patch to A1
Cable: 62.5/125m (OM1) FibreSC-SC, Len: 5m, Qty: 1
Cable: 50/125m (OM3) FibreSC-SC, Len: 5m, Qty: 1
Cable: 50/125m (OM3) FibreSC-SC, Len: 5m, Qty: 1
Cable: 62.5/125m (OM1) FibreSC-SC, Len: 5m, Qty: 1
1000BASE-T, Cable: Cat6 from stock
1000BASE-T, Cable: Cat6 from stock
microsoftevent.localdomain IPv4 NAT1000BASE-T, Cable: Cat6 from stock
1000BASE-T, Cable: Cat6 from stockshow.localdomain IPv4 NAT
2
1
4
3
6
5
8
7
10
9
UTIL
STAT
DUPLX
SPEED
SYSTEM
RPSMODE
11 12
CATALYST 3550
spare
Catalyst 2960 Series PoE-8
SYST
DUPLX
SPEED
MODE
COCIS
1 2
POWER OVER ETHERNET
13X
14X
11X
12X
23X
24X
STAT
RPS
PoE
1X
2X
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
Roadcase Distribution Switch
100BASE-TX, Cable: Cat6 from stock
spare spare
Parts List:<part>: <use> + <spares> = <total>Cisco 3550-12G: 3 + 1 = 4Cisco WS-G5484 MM Fibre GBIC: 16 + 2 = 18Cisco WS-G5483 Copper GBIC: 13 + 2 = 1550/125m OM3 Patch Lead, SC / LC Connectors, 5 metres: 2 + 1 = 3 62.5/125m OM1 Patch Lead, SC / SC Connectors, 5 metres: 11 + 2 = 1350/125m OM3 Patch Lead, SC / SC Connectors, 5 metres: 2 + 1 = 3Cat 6 Cross Over Patch (for LACP stack trunks), 1 metre: 6 + 4 = 10High Perf NAT Boxes: 2 + 2 = 4All copper patch leads assumed to be coming from existing stock .All Catalyst 2970 switches assumed to be coming from existing stock.All TID and OTW CPE and SFPs assumed to be coming from them.
tech ed • 2011Gold Coast Convention and Exhibition Centre
Microsoft®
MDF DesignVersion: 4
Last Updated: 21 July 2011 1800
1 23 4
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AP16
Catalyst 2970 SERIES
MODE
SYSTRPS STATDUPLXSPEED
16X
7 8 9 10 11 121 2 3 4 5 6
1X
2X
11X
12X16X
19 20 21 22 23 2413 14 15 16 17 18
13X
14X
23X
24X
25 26 27 28
PRDSW95Location: G1 (Signed as GC-01)
Catalyst 2970 SERIES
MODE
SYSTRPS STATDUPLXSPEED
16X
7 8 9 10 11 121 2 3 4 5 6
1X
2X
11X
12X16X
19 20 21 22 23 2413 14 15 16 17 18
13X
14X
23X
24X
25 26 27 28
PRDSW96Location: G2 (Signed as GC-02)
Catalyst 2970 SERIES
MODE
SYSTRPS STATDUPLXSPEED
16X
7 8 9 10 11 121 2 3 4 5 6
1X
2X
11X
12X16X
19 20 21 22 23 2413 14 15 16 17 18
13X
14X
23X
24X
25 26 27 28
PRDSW97Location: G3 (Signed as GC-03)
Catalyst 2970 SERIES
MODE
SYSTRPS STATDUPLXSPEED
16X
7 8 9 10 11 121 2 3 4 5 6
1X
2X
11X
12X16X
19 20 21 22 23 2413 14 15 16 17 18
13X
14X
23X
24X
25 26 27 28
PRDSW98Location: G4 (Signed as GC-04)
Catalyst 2970 SERIES
MODE
SYSTRPS STATDUPLXSPEED
16X
7 8 9 10 11 121 2 3 4 5 6
1X
2X
11X
12X16X
19 20 21 22 23 2413 14 15 16 17 18
13X
14X
23X
24X
25 26 27 28
PRDSW99Location: L1 (Signed as FC-01)
Catalyst 2970 SERIES
MODE
SYSTRPS STATDUPLXSPEED
16X
7 8 9 10 11 121 2 3 4 5 6
1X
2X
11X
12X16X
19 20 21 22 23 2413 14 15 16 17 18
13X
14X
23X
24X
25 26 27 28
PRDSW100Location: L2 (Signed as FC-02)
Catalyst 2970 SERIES
MODE
SYSTRPS STATDUPLXSPEED
16X
7 8 9 10 11 121 2 3 4 5 6
1X
2X
11X
12X16X
19 20 21 22 23 2413 14 15 16 17 18
13X
14X
23X
24X
25 26 27 28
PRDSW101Location: L3 (Signed as FC-03)
Catalyst 2970 SERIES
MODE
SYSTRPS STATDUPLXSPEED
16X
7 8 9 10 11 121 2 3 4 5 6
1X
2X
11X
12X16X
19 20 21 22 23 2413 14 15 16 17 18
13X
14X
23X
24X
25 26 27 28
PRDSW102Location: L4 (Signed as FC-04)
Catalyst 2970 SERIES
MODE
SYSTRPS STATDUPLXSPEED
16X
7 8 9 10 11 121 2 3 4 5 6
1X
2X
11X
12X16X
19 20 21 22 23 2413 14 15 16 17 18
13X
14X
23X
24X
25 26 27 28
PRDSW90Location: EH-1 (Signed as “Comm’s Area”)
Catalyst 2970 SERIES
MODE
SYSTRPS STATDUPLXSPEED
16X
7 8 9 10 11 121 2 3 4 5 6
1X
2X
11X
12X16X
19 20 21 22 23 2413 14 15 16 17 18
13X
14X
23X
24X
25 26 27 28
PRDSW91Location: EH-2 (Signed as GF-06)
Catalyst 2970 SERIES
MODE
SYSTRPS STATDUPLXSPEED
16X
7 8 9 10 11 121 2 3 4 5 6
1X
2X
11X
12X16X
19 20 21 22 23 2413 14 15 16 17 18
13X
14X
23X
24X
25 26 27 28
PRDSW92Location: EH-3 (Door unmarked, best of luck J )
Catalyst 2970 SERIES
MODE
SYSTRPS STATDUPLXSPEED
16X
7 8 9 10 11 121 2 3 4 5 6
1X
2X
11X
12X16X
19 20 21 22 23 2413 14 15 16 17 18
13X
14X
23X
24X
25 26 27 28
PRDSW93Location: EH-4 (Signed as FC-05)
Catalyst 2970 SERIES
MODE
SYSTRPS STATDUPLXSPEED
16X
7 8 9 10 11 121 2 3 4 5 6
1X
2X
11X
12X16X
19 20 21 22 23 2413 14 15 16 17 18
13X
14X
23X
24X
25 26 27 28
PRDSW94Location: Arena 1 (Arena 1 Biobox)
1 23 4
55 67 8
9 1011 12
1415 16
17 1819 20
2223 24
2113
Single-mode Fibre62.5/125nm (OM1) Multi-mode
Fibre No Fibre
In UseX
In UseX
2
.Rx
-Tx
. 4
A
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H zANTENNA
2
. Rx -Tx
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2
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AP27
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55 67 8
9 1011 12
1415 16
17 1819 20
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2113
Single-mode Fibre62.5/125nm (OM1) Multi-mode
Fibre No Fibre
In UseX
In UseX
Patch Port ? to ge0/1
Patch Port ? to ge0/2
Patch Port ?
to ge0/3
Patch
Port
? to ge
0/4
Patc
h Po
rt ? t
o ge
0/5
Patc
h Po
rt ?
to g
e0/6
Patc
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rt ?
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Patch Port ? to ge0/1
Patch Port ? to ge0/2
Patch Port ?
to ge0/3
Patch Port ? to ge0/1
Patch Port ? to ge0/2
Patch Port ?
to ge0/3
GLC-SX-MM
1 23 4
55 67 8
9 1011 12
1415 16
17 1819 20
2223 24
2113
Single-mode Fibre62.5/125nm (OM1) Multi-mode
Fibre No Fibre
In UseX
In UseX
GLC-SX-MM
1 23 4
55 67 8
9 1011 12
1415 16
17 1819 20
2223 24
2113
Single-mode Fibre62.5/125nm (OM1) Multi-mode
Fibre No Fibre
In UseX
In UseX
Patch Port ? to ge0/1
Patch Port ? to ge0/2
Patch Port ?
to ge0/3
Patch
Port
? to ge
0/4
Patc
h Po
rt ? t
o ge
0/5
Patc
h Po
rt ?
to g
e0/6
Patc
h Po
rt ?
to g
e0/7
GLC-SX-MM
1 23 4
55 67 8
9 1011 12
1415 16
17 1819 20
2223 24
2113
Single-mode Fibre62.5/125nm (OM1) Multi-mode
Fibre No Fibre
In UseX
In UseX
2
.Rx
-Tx
. 4
A
G
H zANTENNA
2
. Rx-Tx
.4
A
GH
zANTENNA
2
. Rx-Tx
.4
B
GH
zANTENNA
2
. Rx-Tx
.4
C
GH
zANTENNA2
.Rx
-Tx
. 4
C
G
H zANTENNA
2
.Rx
-Tx
. 4
B
G
H zANTENNA
S T AT US R AD I OE T HE R NE T
C OC IS
AP50
2
.Rx
-Tx
. 4
A
G
H zANTENNA
2
. Rx-Tx
.4
A
GH
zANTENNA
2
. Rx-Tx
.4
B
GH
zANTENNA
2
. Rx-Tx
.4
C
GH
zANTENNA2
.Rx
-Tx
. 4
C
G
H zANTENNA
2
.Rx
-Tx
. 4
B
G
H zANTENNA
S T AT US R AD I OE T HE R NE T
C OC IS
AP37
2
.Rx
-Tx
. 4
A
G
H zA
NTENNA
2
. Rx-Tx
.4
A
GH
zANTENNA
2
. Rx-Tx
.4
B
GH
zANTENNA
2
. Rx-Tx
.4
C
GH
zANTENNA2
.Rx
-Tx
. 4
C
G
H z ANTENNA
2
.Rx
-Tx
. 4
B
G
H zA
NTENNA
S T AT US R AD I OE T HE R NE T
C OC IS
AP36
Patch Port ? to ge0/1
Patch Port ? to ge0/2
Patch Port ?
to ge0/3
2
.Rx
-Tx
. 4
A
G
H z ANTENNA
2
. Rx -Tx
.4
A
GHzANTENNA
2
. Rx -Tx
.4
B
GHzANTENNA
2
. Rx -Tx
.4
C
GHzANTENNA
2
.Rx
-Tx
. 4
C
G
H z ANTENNA
2
.Rx
-Tx
. 4
B
G
H z ANTENNA
S T AT US R AD I OE T HE R NE T
C OC I S
AP35
Patch
Port ? t
o ge0/
4
GLC-SX-MM
1 23 4
55 67 8
9 1011 12
1415 16
17 1819 20
2223 24
2113
Single-mode Fibre62.5/125nm (OM1) Multi-mode
Fibre No Fibre
In UseX
In UseX
GLC-SX-MM
1 23 4
55 67 8
9 1011 12
1415 16
17 1819 20
2223 24
2113
Single-mode Fibre62.5/125nm (OM1) Multi-mode
Fibre No Fibre
In UseX
In UseX
GLC-SX-MM
1 23 4
55 67 8
9 1011 12
1415 16
17 1819 20
2223 24
2113
Single-mode Fibre62.5/125nm (OM1) Multi-mode
Fibre No Fibre
In UseX
XIn Use
2
.Rx
-Tx
. 4
A
G
H zANTENNA
2
. Rx -Tx
.4
A
GH
zANTENNA
2
. Rx -Tx
.4
B
GH
zANTENNA
2
. Rx -Tx
.4
C
GH
zANTENNA2
.Rx
-Tx
. 4
C
G
H zANTENNA
2
.Rx
-Tx
. 4
B
G
H zANTENNA
S T AT US R AD I OE T HE R NE T
C OC IS
AP42
2
.Rx
-Tx
. 4
A
G
H z ANTENNA
2
. Rx -Tx
.4
A
GHzANTENNA
2
. Rx -Tx
.4
B
GHzANTENNA
2
. Rx -Tx
.4
C
GHzANTENNA
2
.Rx
-Tx
. 4
C
G
H z ANTENNA
2
.Rx
-Tx
. 4
B
G
H z ANTENNA
S T AT US R AD I OE T HE R NE T
C OC IS
AP43
2
.Rx
-Tx
. 4
A
G
H z ANTENNA
2
. Rx -Tx
.4
A
GHzANTENNA
2
. Rx -Tx
.4
B
GHzANTENNA
2
. Rx -Tx
.4
C
GHzANTENNA
2
.Rx
-Tx
. 4
C
G
H z ANTENNA
2
.Rx
-Tx
. 4
B
G
H z ANTENNA
S T AT US R AD I OE T HE R NE T
C OC IS
AP44
Patch Port ? to ge0/1
Patch Port ? to ge0/2
Patch Port ?
to ge0/3
2
.Rx
-Tx
. 4
A
G
H z ANTENNA
2
. Rx -Tx
.4
A
GHzANTENNA
2
. Rx -Tx
.4
B
GHzANTENNA
2
. Rx -Tx
.4
C
GHzANTENNA
2
.Rx
-Tx
. 4
C
G
H z ANTENNA
2
.Rx
-Tx
. 4
B
G
H z ANTENNA
S T AT US R AD I OE T HE R NE T
C OC I S
AP402
.Rx
-Tx
. 4
A
G
H z ANTENNA
2
. Rx -Tx
.4
A
GHzANTENNA
2
. Rx -Tx
.4
B
GHzANTENNA
2
. Rx -Tx
.4
C
GHzANTENNA
2
.Rx
-Tx
. 4
C
G
H z ANTENNA
2
.Rx
-Tx
. 4
B
G
H z ANTENNA
S T AT US R AD I OE T HE R NE T
C OC I S
AP41
Patch Port ? to ge0/1
Patch Port ? to ge0/22
.Rx
-Tx
. 4
A
G
H z ANTENNA
2
. Rx -Tx
.4
A
GHzANTENNA
2
. Rx -Tx
.4
B
GHzANTENNA
2
. Rx -Tx
.4
C
GHzANTENNA
2
.Rx
-Tx
. 4
C
G
H z ANTENNA
2
.Rx
-Tx
. 4
B
G
H z ANTENNA
S T AT US R AD I OE T HE R NE T
C OC IS
AP38
AP
2
.Rx
-Tx
. 4
A
G
H z ANTENNA
2
. Rx -Tx
.4
A
GH
zANTENNA
2
. Rx -Tx
.4
B
GH
zANTENNA
2
. Rx -Tx
.4
C
GH
zANTENNA2
.Rx
-Tx
. 4
C
G
H z ANTENNA
2
.Rx
-Tx
. 4
B
G
H z ANTENNA
S T AT US R AD I OE T HE R NE T
C OC IS
AP39
Patch Port ? to ge0/1
Patch Port ? to ge0/2
GLC-SX-MM
Single-mode Fibre62.5/125nm (OM1) Multi-mode
Fibre No Fibre
In UseX
2
.Rx
-Tx
. 4
A
G
H z ANTENNA
2
. Rx -Tx
.4
A
GHzANTENNA
2
. Rx-Tx
.4
B
GHzANTENNA
2
. Rx -Tx
.4
C
GHzANTENNA
2
.Rx
-Tx
. 4
C
G
H z ANTENNA
2
.Rx
-Tx
. 4
B
G
H zA
NTENNA
S T AT US R AD I OE T HE R NE T
C OC I S
AP45
2
.Rx
-Tx
. 4
A
G
H zA
NTENNA
2
. Rx-Tx
.4
A
GH
zANTENNA
2
. Rx -Tx
.4
B
GH
zANTENNA
2
. Rx-Tx
.4
C
GH
zANTENNA2
.Rx
-Tx
. 4
C
G
H zA
NTENNA
2
.Rx
-Tx
. 4
B
G
H z ANTENNA
S T AT US R AD I OE T HE R NE T
C OC I S
AP47
2
.Rx
-Tx
. 4
A
G
H zA
NTENNA
2
. Rx-Tx
.4
A
GHzANTENNA
2
. Rx -Tx
.4
B
GHzANTENNA
2
. Rx-Tx
.4
C
GHzANTENNA
2
.Rx
-Tx
. 4
C
G
H zA
NTENNA
2
.Rx
-Tx
. 4
B
G
H z ANTENNA
S T AT US R AD I OE T HE R NE T
C OC I S
AP49
2
.Rx
-Tx
. 4
A
G
H zANTENNA
2
. Rx-Tx
.4
A
GH
zANTENNA
2
. Rx -Tx
.4
B
GH
zANTENNA
2
. Rx-Tx
.4
C
GH
zANTENNA2
.Rx
-Tx
. 4
C
G
H zANTENNA
2
.Rx
-Tx
. 4
B
G
H zANTENNA
S T AT US R AD I OE T HE R NE T
C OC I S
AP46
2
.Rx
-Tx
. 4
A
G
H zANTENNA
2
. Rx-Tx
.4
A
GH
zANTENNA
2
. Rx -Tx
.4
B
GH
zANTENNA
2
. Rx-Tx
.4
C
GH
zANTENNA2
.Rx
-Tx
. 4
C
G
H zANTENNA
2
.Rx
-Tx
. 4
B
G
H zANTENNA
S T AT US R AD I OE T HE R NE T
C OC I S
AP48
Patch Port ? to ge0/1
Patch Port ? to ge0/2
Patch Port ? to ge0/3
Patch Port
? to ge0/4
Patch
Port
? to g
e0/5
GLC-SX-MM
1 23 4
55 67 8
9 1011 12
1415 16
17 1819 20
2223 24
2113
62.5/125nm (OM1) Multi-mode Fibre(Top Patch Panel)
In UseX
In UseX
2
.Rx
-Tx
. 4
A
G
H z ANTENNA
2
. Rx -Tx
.4
A
GHzANTENNA
2
. Rx-Tx
.4
B
GHzANTENNA
2
. Rx -Tx
.4
C
GHzANTENNA
2
.Rx
-Tx
. 4
C
G
H z ANTENNA
2
.Rx
-Tx
. 4
B
G
H zA
NTENNA
S T AT US R AD I OE T HE R NE T
C OC IS
AP17
2
.Rx
-Tx
. 4
A
G
H zANTENNA
2
. Rx-Tx
.4
A
GH
zANTENNA
2
. Rx -Tx
.4
B
GH
zANTENNA
2
. Rx-Tx
.4
C
GH
zANTENNA2
.Rx
-Tx
. 4
C
G
H zANTENNA
2
.Rx
-Tx
. 4
B
G
H zANTENNA
S T AT US R AD I OE T HE R NE T
C OC I S
AP18
2
.Rx
-Tx
. 4
A
G
H zA
NTENNA
2
. Rx-Tx
.4
A
GHzANTENNA
2
. Rx -Tx
.4
B
GHzANTENNA
2
. Rx-Tx
.4
C
GHzANTENNA
2
.Rx
-Tx
. 4
C
G
H zA
NTENNA
2
.Rx
-Tx
. 4
B
G
H z ANTENNA
S T AT US R AD I OE T HE R NE T
C OC I S
AP21
2
.Rx
-Tx
. 4
A
G
H zA
NTENNA
2
. Rx-Tx
.4
A
GH
zANTENNA
2
. Rx -Tx
.4
B
GH
zANTENNA
2
. Rx-Tx
.4
C
GH
zANTENNA2
.Rx
-Tx
. 4
C
G
H zA
NTENNA
2
.Rx
-Tx
. 4
B
G
H z ANTENNA
S T AT US R AD I OE T HE R NE T
C OC I S
AP19
2
.Rx
-Tx
. 4
A
G
H zANTENNA
2
. Rx-Tx
.4
A
GH
zANTENNA
2
. Rx -Tx
.4
B
GH
zANTENNA
2
. Rx-Tx
.4
C
GH
zANTENNA2
.Rx
-Tx
. 4
C
G
H zANTENNA
2
.Rx
-Tx
. 4
B
G
H zANTENNA
S T AT US R AD I OE T HE R NE T
C OC I S
AP20
Patch Port ? to ge0/1Patch Port ? to ge0/2
Patch Port ? to ge0/3
Patch Port ? to ge0/4
Patch Port ? to ge0/5
GLC-SX-MM
1 23 4
55 67 8
9 1011 12
1415 16
17 1819 20
2223 24
2113
62.5/125nm (OM1) Multi-mode Fibre(Top Patch Panel)
In UseX
In UseX
2
.Rx
-Tx
. 4
A
G
H z ANTENNA
2
. Rx -Tx
.4
A
GHzANTENNA
2
. Rx-Tx
.4
B
GHzANTENNA
2
. Rx -Tx
.4
C
GHzANTENNA
2
.Rx
-Tx
. 4
C
G
H z ANTENNA
2
.Rx
-Tx
. 4
B
G
H zA
NTENNA
S T AT US R AD I OE T HE R NE T
C OC IS
AP23
2
.Rx
-Tx
. 4
A
G
H zANTENNA
2
. Rx -Tx
.4
A
GH
zANTENNA
2
. Rx-Tx
.4
B
GH
zANTENNA
2
. Rx -Tx
.4
C
GH
zANTENNA2
.Rx
-Tx
. 4
C
G
H zANTENNA
2
.Rx
-Tx
. 4
B
G
H zANTENNA
S T AT US R AD I OE T HE R NE T
C OC IS
AP22
Patch Port ? to ge0/1
Patch Port ? to ge0/2
GLC-SX-MM
1 23 4
55 67 8
9 1011 12
1415 16
17 1819 20
2223 24
2113
50/125nm (OM3) Multi-mode Fibre – TODO confirm from Siemens 9F5LB1-12D-Optical Fibre Cable E244435-03 Multimode specs
(Top Patch Panel)
In UseX
In UseX
GLC-SX-MM
1 23 4
55 67 8
9 1011 12
1415 16
17 1819 20
2223 24
2113
50/125nm (OM3) Multi-mode Fibre – TODO confirm from Siemens 9F5LB1-12D-Optical Fibre Cable E244435-03 Multimode specs
(Top Patch Panel)
In UseX
In UseX
In UseX
2
.Rx
-Tx
. 4
A
G
H z ANTENNA
2
. Rx -Tx
.4
A
GH
zANTENNA
2
. Rx-Tx
.4
B
GH
zANTENNA
2
. Rx -Tx
.4
C
GH
zANTENNA2
.Rx
-Tx
. 4
C
G
H z ANTENNA
2
.Rx
-Tx
. 4
B
G
H zA
NTENNA
S T AT US R AD I OE T HE R NE T
C OC IS
AP26
2
.Rx
-Tx
. 4
A
G
H zA
NTENNA
2
. Rx-Tx
.4
A
GHzANTENNA
2
. Rx -Tx
.4
B
GHzANTENNA
2
. Rx-Tx
.4
C
GHzANTENNA
2
.Rx
-Tx
. 4
C
G
H zA
NTENNA
2
.Rx
-Tx
. 4
B
G
H z ANTENNA
S T AT US R AD I OE T HE R NE T
C OC I S
AP29
2
.Rx
-Tx
. 4
A
G
H zANTENNA
2
. Rx-Tx
.4
A
GH
zANTENNA
2
. Rx -Tx
.4
B
GH
zANTENNA
2
. Rx-Tx
.4
C
GH
zANTENNA2
.Rx
-Tx
. 4
C
G
H zANTENNA
2
.Rx
-Tx
. 4
B
G
H zANTENNA
S T AT US R AD I OE T HE R NE T
C OC I S
AP28
2
.Rx
-Tx
. 4
A
G
H zA
NTENNA
2
. Rx-Tx
.4
A
GHzANTENNA
2
. Rx -Tx
.4
B
GHzANTENNA
2
. Rx-Tx
.4
C
GHzANTENNA
2
.Rx
-Tx
. 4
C
G
H zA
NTENNA
2
.Rx
-Tx
. 4
B
G
H z ANTENNA
S T AT US R AD I OE T HE R NE T
C OC I S
AP30
Patch Port ? to ge0/1
Patch Port ? to ge0/2
Patch Port ? to ge0/3
Patch Port ?
to ge0/4
2
.Rx
-Tx
. 4
A
G
H z ANTENNA
2
. Rx -Tx
.4
A
GHzANTENNA
2
. Rx -Tx
.4
B
GHzANTENNA
2
. Rx -Tx
.4
C
GHzANTENNA
2
.Rx
-Tx
. 4
C
G
H zA
NTENNA
2
.Rx
-Tx
. 4
B
G
H z ANTENNA
S T AT US R AD I OE T HE R NE T
C OC I S
AP31
2
.Rx
-Tx
. 4
A
G
H z ANTENNA
2
. Rx -Tx
.4
A
GHzANTENNA
2
. Rx -Tx
.4
B
GHzANTENNA
2
. Rx -Tx
.4
C
GHzANTENNA
2
.Rx
-Tx
. 4
C
G
H z ANTENNA
2
.Rx
-Tx
. 4
B
G
H z ANTENNA
S T AT US R AD I OE T HE R NE T
C OC IS
AP33
2
.Rx
-Tx
. 4
A
G
H zANTENNA
2
. Rx -Tx
.4
A
GH
zANTENNA
2
. Rx -Tx
.4
B
GH
zANTENNA
2
. Rx -Tx
.4
C
GH
zANTENNA2
.Rx
-Tx
. 4
C
G
H zANTENNA
2
.Rx
-Tx
. 4
B
G
H zANTENNA
S T AT US R AD I OE T HE R NE T
C OC IS
AP32
Patch Port ? to ge0/1
Patch Port ? to ge0/2
Patch Port ? to ge0/3
Parts List:<part>: <use> + <spares> = <total>Cisco GLC-SX-MM: 13 Allocated + 2 Spare = 1550/125m OM3 Patch Lead, SC / LC Connectors, 2 metres: 3 + 2 = 5 62.5/125m OM1 Patch Lead, SC / LC Connectors, 2 metres: 11 + 2 = 13All copper patch leads assumed to be coming from existing stock.All Catalyst 2970 switches assumed to be coming from existing stock.
tech ed • 2011Gold Coast Convention and Exhibition Centre
Microsoft®
IDF DesignVersion: 4
Last Updated: 21 July 2011 1800
Patch Ports 9&10 to ge0/28 w/GLC-SX-MM SFP
62.5/125m OM1 patchmin. 2 metres
SC / LC Connectors
Patch Ports 9&10 to ge0/28 w/GLC-SX-MM SFP
62.5/125m OM1 patchmin. 2 metres
SC / LC Connectors
Patch Ports 9&10 to ge0/28 w/GLC-SX-MM SFP
62.5/125m OM1 patchmin. 2 metres
SC / LC Connectors
Patch Ports 9&10 to ge0/28 w/GLC-SX-MM SFP
62.5/125m OM1 patchmin. 2 metres
SC / LC Connectors
Patch Ports 9&10 to ge0/28 w/GLC-SX-MM SFP
62.5/125m OM1 patchmin. 2 metres
SC / LC Connectors
Patch Ports 9&10 to ge0/28 w/GLC-SX-MM SFP
62.5/125m OM1 patchmin. 2 metres
SC / LC Connectors
Patch Ports 9&10 to ge0/28 w/GLC-SX-MM SFP
62.5/125m OM1 patchmin. 2 metres
SC / LC Connectors
Patch Ports 9&10 to ge0/28 w/GLC-SX-MM SFP
62.5/125m OM1 patchmin. 2 metres
SC / LC Connectors
Patch Ports 9&10 to ge0/28 w/GLC-SX-MM SFP
50/125m OM3 patchmin. 2 metres
SC / LC Connectors
Patch Ports 9&10 to ge0/28 w/GLC-SX-MM SFP
62.5/125m OM1 patchmin. 2 metres
SC / LC Connectors
Patch Ports 9&10 to ge0/28 w/GLC-SX-MM SFP
62.5/125m OM1 patchmin. 2 metres
SC / LC Connectors
Patch Ports 9&10 to ge0/28 w/GLC-SX-MM SFP
50/125m OM3 patchmin. 2 metres
SC / LC Connectors
Patch Ports 9&10 to ge0/28 w/GLC-SX-MM SFP
50/125m OM3 patchmin. 2 metres
SC / LC Connectors
WHY
???
WHY???
WHY
???
WHY
???
(c) 2011 Microsoft. All rights reserved.
Part 1
IP Transit – Getting what you paid for.
(c) 2011 Microsoft. All rights reserved.
IP Transit: What we want
► Great performance for typical usage scenarios
► Significantly exceed commonly expected performance
► Delegeeks (and APC sales drones) must ♥ the APC/TechEd network
► Matter of brand value for Microsoft► Matter of pride for the TechOps team
(c) 2011 Microsoft. All rights reserved.
A few primers
► Ethernet: Chuck data at a wall and see what sticks– IEEE 802.3 is CSMA/CA– Simple and clever design Self-clocking– Useless if congested
► Internet Protocol Suite– The Internet is powered by a suite of protocols– Different protocols support different usage
scenarios
(c) 2011 Microsoft. All rights reserved.
TCP congestion management
► Works like magic!► Have you noticed downloading a file and
the transfer starts off slow then speeds up?
► This is congestion management at work.► Not very deterministic but the Internet
wouldn’t work otherwise.
(c) 2011 Microsoft. All rights reserved.
Typical Internet Usage Scenario
www.4chan.org
10gbpsSome Fancy IP
Transit Provider
80mbpsSome Dodgy IP Transit Provider
10gbpsISP core
10gbpsSome Fancy IP
Transit Provider
10gbpsSome Fancy IP
Transit Provider
10gbpsISP core
1gbps
1gbps
10mbps
0.8mbps
Resi-grade DSL “Router”
Data centre cross-connect
161 millisecond round-trip time
Some observations:• The trip from AB is on a different path to BA• Couple of dodgy providers in the mix – How do we stop the 80mbps and
10mbps links on the red path getting smashed?• In reality there are 15 hops between us an 4chan• Ye cannay change the laws of physics
(c) 2011 Microsoft. All rights reserved.
How TCP doesn’t work
www.4chan.org
161 millisecond round-trip time
HTTP Request for naked picture of Miranda Kerr
Old-mate just had a disappointing user experience
ACK
ACK
ACK
(c) 2011 Microsoft. All rights reserved.
How TCP DOES work
www.4chan.org
161 millisecond round-trip time
HTTP Request for naked picture of Miranda Kerr
Old-mate just had an AWESOME user
experience
ACKACK ACK
ACK
• TCP tunes itself to make use of bandwidth without smashing links• Latency affects the number of packets that can be in flight at once• This is called the bandwidth delay product (BDP)
All of this is true but it is not a get out of jail free card for performance problems
(c) 2011 Microsoft. All rights reserved.
Common myths
► EVERY supplier uses BDP as an excuse► iperf and UDP are their weapons of choice
– Great if DNS was the primary use case for perf #fail
– Most deep packet inspection happens on TCP streams (i.e. you’ll find traffic policing issues there)
► Get a BDP calculator and tell them to get back in their box
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Bestest excuses ever
► “Ping is irrelevant for measuring latency! It is a UDP protocol!”– Anonymous muppet at TechEd 2011
(c) 2011 Microsoft. All rights reserved.
Bestest excuses ever
► “You can’t use FTP for bandwidth testing because it is adaptive”– ISP on Hamilton Island
(c) 2011 Microsoft. All rights reserved.
Bestest excuses ever
► [ Walks in with a smashed Netcomm NB9 resi-grade DSL modem with an antenna hanging out the back ]
► “I am here to install your 6 meg link”.
(c) 2011 Microsoft. All rights reserved.
Bestest excuses ever
► 2 am, pouring rain in the middle of a golf course
► Linesman turns up► “I am here to fix a problem with an ATM.”
► CAN YOU SPOT THE DIFFERENCE?
(c) 2011 Microsoft. All rights reserved.
#1 Bestestestiest excuse ever
► Name server returns NXDOMAIN RCODE for a domain the delegates rely on
► “Could be due to hurricane Irene.”
(c) 2011 Microsoft. All rights reserved.
Part 2
cloud.auteched.net
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DemoNetWhat is it?
► Private cloud supporting demonstrations during the event
► Showcase latest MS and HP technology
► Sitting in the middle of the Expo hall
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DemoNetStats
►28 of clouds–238 VMs–9 hosts dedicated to session
–8 networks (+reuse)
(c) 2011 Microsoft. All rights reserved.
DemoNetHow do you get on it?
► Communicated during Speaker registration
► Capture requirements upfront
► VMs imported on-site, via USB HDD
► Capture requirements (again)
(c) 2011 Microsoft. All rights reserved.
DemoNetThe conditions in which we work
► Unstable environmental conditions– Power outs– Muppets with pliers– People kicking over beers
► Layout vs. purpose– Showcase not really
a data centre
► Physical access
(c) 2011 Microsoft. All rights reserved.
(c) 2011 Microsoft. All rights reserved.
(c) 2011 Microsoft. All rights reserved.
DemoNetLogistics
► SYD/SIN > BNE– Codify HQ (2nd August)– Environment build (firmware, OS, core infra)– Hosted on same IP space as event before going
on site
► BNE > GCCEC– Showcase– Go-live (Friday 26th August)– Plug it in and it ‘just works’
(c) 2011 Microsoft. All rights reserved.
DemoNetLogistics
► Showcase hardware unpacking in action
(c) 2011 Microsoft. All rights reserved.
DemoNetDesign rational
► Highest level resilience for the environment– Hyper-V Clusters– Failover network design– Storage RAID6 (not RAID0)– Power – Single 32A 3phase
► Shared Services
(c) 2011 Microsoft. All rights reserved.
DemoNetHardware
► 24 x HP BL460c G7 (4 Enclosures, 2 Racks)– ServerEngines and Virtual Connect
► HP EVA HSV300– 45 x SAS 450 GB– 11 x FATA 1 TB– 79% allocated
(c) 2011 Microsoft. All rights reserved.
DemoNetHardware
► DEMO
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DemoNetHardware (cont.)
(c) 2011 Microsoft. All rights reserved.
DemoNetManagement
► SCVMM 2012 Beta– Bare Metal Builds
• WinPE + HP SmartStart + WDS• Windows 2008 R2• Enable Hyper-V role• Proliant Support Pack (HP NCU)• SAN tools/mgmt
(c) 2011 Microsoft. All rights reserved.
DemoNetManagement
► SCVMM 2012 Beta– VM templates
• WIM2VHD + unattend.xml
– SSP