THE IMPORTANCE OF SPACE AND POWER REQUIREMENTS IN NETWORK DEPLOYMENTS
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TM-3000/II<br />
TM-3000<br />
CU<br />
TPMRH-L<br />
TPMRH-L<br />
TPMRH-L<br />
TPMRH-L<br />
TPMRH-L<br />
TPMRH-L<br />
TPMRH-L<br />
TPMRH-L<br />
TPMRH-L<br />
TPMRH-L<br />
TPMRH-L<br />
SFP/II<br />
16G<br />
16G<br />
16G<br />
16G<br />
16G<br />
16G<br />
16G<br />
16G<br />
16G<br />
16G<br />
16G<br />
PWR<br />
PWR<br />
PWR<br />
PWR<br />
PWR<br />
PWR<br />
PWR<br />
PWR<br />
PWR<br />
PWR<br />
PWR<br />
PWR<br />
STS<br />
STS<br />
STS<br />
STS<br />
STS<br />
STS<br />
STS<br />
STS<br />
STS<br />
STS<br />
STS<br />
STS<br />
PWR<br />
1<br />
1<br />
1<br />
1<br />
1<br />
1<br />
1<br />
1<br />
1<br />
1<br />
1<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
STS<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
2<br />
2<br />
2<br />
2<br />
2<br />
2<br />
2 Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
2<br />
2<br />
2<br />
2<br />
SYS<br />
3<br />
3<br />
3<br />
3<br />
3<br />
3<br />
3<br />
3<br />
3<br />
3<br />
3<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Rx<br />
4 Rx<br />
4 Rx<br />
4 Rx<br />
4 Rx<br />
4 Rx<br />
4 Rx<br />
4 Rx<br />
4 Rx<br />
4 Rx<br />
4 Rx<br />
4 Rx<br />
5<br />
5<br />
5<br />
5<br />
5<br />
5<br />
5<br />
5<br />
5<br />
5<br />
5<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Rx<br />
6 Rx<br />
6 Rx<br />
6 Rx<br />
6 Rx<br />
6 Rx<br />
6 Rx<br />
6 Rx<br />
6 Rx<br />
6 Rx<br />
6 Rx<br />
6 Rx<br />
7<br />
7<br />
7<br />
7<br />
7<br />
7<br />
7<br />
7<br />
7<br />
7<br />
7<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Rx<br />
8 Rx<br />
8 Rx<br />
8 Rx<br />
8 Rx<br />
8 Rx<br />
8 Rx<br />
8 Rx<br />
8 Rx<br />
8 Rx<br />
8 Rx<br />
8 Rx<br />
9<br />
9<br />
9<br />
9<br />
9<br />
9<br />
9<br />
9<br />
9<br />
9<br />
9<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Rx<br />
10 Rx<br />
10 Rx<br />
10 Rx<br />
10 Rx<br />
10 Rx<br />
10 Rx<br />
10 Rx<br />
10 Rx<br />
10 Rx<br />
10 Rx<br />
10 Rx<br />
11<br />
11<br />
11<br />
11<br />
11<br />
11<br />
11<br />
11<br />
11<br />
11<br />
11<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
12<br />
12<br />
12<br />
12<br />
12<br />
12<br />
12 Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
12<br />
12<br />
12<br />
12<br />
13<br />
13<br />
13<br />
13<br />
13<br />
13<br />
13<br />
13<br />
13<br />
13<br />
13<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
DCN2<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
14<br />
14<br />
14<br />
14<br />
14<br />
14<br />
14<br />
14<br />
14<br />
14<br />
14<br />
ICN1<br />
ICN2<br />
15<br />
15<br />
15<br />
15<br />
15<br />
15<br />
15<br />
15<br />
15<br />
15<br />
15<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
OSC1-4<br />
16<br />
16<br />
16<br />
16<br />
16<br />
16<br />
16<br />
16<br />
16<br />
16<br />
16<br />
Tx<br />
1<br />
17<br />
17<br />
17<br />
17<br />
17<br />
17<br />
17<br />
17<br />
17<br />
17<br />
17<br />
1<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Rx<br />
2 Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
18<br />
18<br />
18<br />
18<br />
18<br />
18<br />
18<br />
18<br />
18<br />
18<br />
18<br />
Tx 3<br />
2<br />
19<br />
19<br />
19<br />
19<br />
19<br />
19<br />
19<br />
19<br />
19<br />
19<br />
19<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Rx 4 Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
20<br />
20<br />
20<br />
20<br />
20<br />
20<br />
20<br />
20<br />
20<br />
20<br />
20<br />
Tx<br />
3<br />
5<br />
21<br />
21<br />
21<br />
21<br />
21<br />
21<br />
21<br />
21<br />
21<br />
21<br />
21<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Rx 6 Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Tx<br />
22<br />
22<br />
22<br />
22<br />
22<br />
22<br />
22<br />
22<br />
22<br />
22<br />
22<br />
4<br />
7<br />
23<br />
23<br />
23<br />
23<br />
23<br />
23<br />
23<br />
23<br />
23<br />
23<br />
23<br />
Rx 8 Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Tx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
Rx<br />
24<br />
24<br />
24<br />
24<br />
24<br />
24<br />
24<br />
24<br />
24<br />
24<br />
24<br />
USB<br />
DCN2<br />
Eth<br />
TP1<br />
TP1<br />
TP1<br />
TP1<br />
TP1<br />
Fan OK<br />
Fan fail<br />
TP1<br />
TP1<br />
TP1<br />
TP1<br />
TP1<br />
TP1<br />
PWR<br />
STS<br />
1<br />
Tx<br />
Rx 2<br />
3<br />
Tx<br />
4 Rx<br />
5<br />
Tx<br />
6 Rx<br />
7<br />
Tx<br />
8 Rx<br />
9<br />
Tx<br />
10 Rx<br />
11<br />
Tx<br />
Rx 12<br />
13<br />
Tx<br />
Rx<br />
14<br />
15<br />
Tx<br />
Rx<br />
16<br />
17<br />
Tx<br />
Rx<br />
18<br />
19<br />
Tx<br />
Rx<br />
20<br />
21<br />
Tx<br />
Rx<br />
22<br />
23<br />
Tx<br />
Rx<br />
24<br />
TP1<br />
PWR<br />
STS<br />
1<br />
Tx<br />
Rx 2<br />
3<br />
Tx<br />
4 Rx<br />
5<br />
Tx<br />
6 Rx<br />
7<br />
Tx<br />
8 Rx<br />
9<br />
Tx<br />
10 Rx<br />
11<br />
Tx<br />
Rx 12<br />
13<br />
Tx<br />
Rx<br />
14<br />
15<br />
Tx<br />
Rx<br />
16<br />
17<br />
Tx<br />
Rx<br />
18<br />
19<br />
Tx<br />
Rx<br />
20<br />
21<br />
Tx<br />
Rx<br />
22<br />
23<br />
Tx<br />
Rx<br />
24<br />
TP1<br />
RS 232<br />
Fan OK<br />
Fan fail<br />
OA 2 MS VG<br />
20/20 C<br />
MXP<br />
Tx/Rx<br />
Odd 100GHz<br />
1<br />
Even<br />
2<br />
PWR<br />
1<br />
STS<br />
2<br />
Line<br />
3<br />
50GHz<br />
4<br />
Tx/Rx<br />
3<br />
Nc<br />
5<br />
6<br />
7<br />
DWDM<br />
8<br />
9<br />
10<br />
11<br />
12<br />
OA 2<br />
13<br />
14<br />
Tx/Rx<br />
15 Rx<br />
Odd 100GHz<br />
1<br />
Even<br />
16<br />
2<br />
Mon<br />
17<br />
18 OA2<br />
OA1 19<br />
Line<br />
20<br />
OA 1<br />
Tx/Rx<br />
50GHz<br />
3<br />
21<br />
Tx<br />
Nc<br />
22<br />
1<br />
Rx<br />
2<br />
23<br />
24<br />
DWDM<br />
TP1<br />
Wrist strap<br />
TM-3000/II<br />
TM-3000<br />
CU<br />
EMXP120/IIE<br />
EMXP120/IIE<br />
EMXP120/IIE<br />
ROADM<br />
ROADM<br />
ROADM<br />
SFP/II<br />
1x2/50G<br />
1x2/50G<br />
1x2/50G<br />
PWR<br />
PWR<br />
PWR<br />
PWR<br />
PWR<br />
PWR<br />
PWR<br />
STS<br />
STS<br />
STS<br />
STS<br />
STS<br />
STS<br />
STS<br />
SFP port<br />
SFP port<br />
SFP port<br />
Sp<br />
Sp<br />
Sp<br />
Tx<br />
1<br />
Tx 25<br />
1<br />
Tx<br />
Tx<br />
25<br />
1<br />
Tx<br />
Tx<br />
25<br />
PWR<br />
STS<br />
Rx<br />
2<br />
Rx<br />
26 Rx<br />
2<br />
Rx<br />
26 Rx<br />
2<br />
Rx<br />
26<br />
SYS<br />
Tx<br />
Tx<br />
Tx<br />
3<br />
3<br />
3<br />
Rx<br />
4<br />
Rx<br />
4<br />
Rx<br />
4<br />
Tx<br />
Tx<br />
Tx<br />
5<br />
5<br />
5<br />
Rx<br />
6<br />
Rx<br />
6<br />
Rx<br />
6<br />
Tx<br />
7<br />
Tx<br />
7<br />
Tx<br />
7<br />
Rx<br />
8<br />
Rx<br />
8<br />
Rx<br />
8<br />
Tx<br />
9<br />
Tx<br />
9<br />
Tx<br />
9<br />
Rx<br />
10<br />
Rx<br />
10<br />
Rx<br />
10<br />
Tx<br />
Tx<br />
Tx<br />
11<br />
11<br />
11<br />
12<br />
12<br />
12<br />
Rx<br />
Rx<br />
Rx<br />
Tx<br />
Tx<br />
Tx<br />
13<br />
13<br />
13<br />
DCN2<br />
ICN1<br />
Rx<br />
14<br />
Rx<br />
14<br />
Rx<br />
14<br />
ICN2<br />
Tx<br />
Tx<br />
Tx<br />
15<br />
15<br />
15<br />
OSC1-4<br />
Rx<br />
16<br />
Rx<br />
16<br />
Rx<br />
16<br />
Tx<br />
1<br />
A/D<br />
A/D<br />
A/D<br />
1<br />
Tx<br />
17<br />
Tx<br />
17<br />
Tx<br />
17<br />
Tx 1 Tx<br />
Rx<br />
2<br />
1<br />
1 Tx<br />
Rx 2 1 Rx 2 1<br />
1<br />
Rx 2<br />
Tx<br />
18<br />
18<br />
18<br />
Rx<br />
Rx<br />
Rx<br />
3<br />
Tx 3 Tx 3 Tx 3<br />
2<br />
2 Ext<br />
2 Ext<br />
2 Ext<br />
Tx<br />
Tx<br />
Tx<br />
Rx 4<br />
19<br />
19<br />
19<br />
Rx 4 Rx 4 Rx 4<br />
Line<br />
Tx<br />
Line<br />
Tx<br />
Line<br />
Tx<br />
Tx<br />
Mon<br />
Mon<br />
Mon<br />
3<br />
5 Rx<br />
20<br />
Rx<br />
20<br />
Rx<br />
20<br />
NC<br />
NC<br />
NC<br />
Tx<br />
Rx 6<br />
5 Tx 5 Tx 5<br />
Tx<br />
Tx<br />
Tx<br />
21<br />
21<br />
21<br />
I/O<br />
I/O<br />
I/O<br />
Rx 6 Rx 6 Rx 6<br />
Tx<br />
4<br />
7 Rx<br />
22<br />
Rx<br />
22<br />
Rx<br />
22<br />
Rx 8 Tx<br />
Tx<br />
Tx<br />
23<br />
23<br />
23<br />
Rx<br />
24<br />
Rx<br />
24<br />
Rx<br />
24<br />
USB<br />
DCN2<br />
Eth<br />
Fan OK<br />
Fan fail<br />
MDU16<br />
CL/50G<br />
A/D<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
7<br />
8<br />
Line<br />
1 9 2<br />
3<br />
10<br />
4<br />
5<br />
11<br />
6<br />
7<br />
12<br />
8<br />
913<br />
10<br />
11<br />
14<br />
12<br />
13<br />
15<br />
14<br />
15<br />
16<br />
16<br />
I/O<br />
17<br />
18<br />
19<br />
20<br />
21<br />
22<br />
23<br />
24<br />
25<br />
26<br />
27<br />
28<br />
29<br />
30<br />
31<br />
32<br />
34<br />
STS<br />
Port A<br />
Port B<br />
OCM<br />
RS 232<br />
PWR<br />
STS<br />
OA 2 MS VG<br />
20/20 C<br />
MXP<br />
RS 232<br />
Fan OK<br />
Fan fail<br />
PWR<br />
STS<br />
OA 2 MS VG<br />
20/20 C<br />
MXP<br />
1470<br />
AD OIU-C 1Ch<br />
OA 2<br />
OA 2<br />
50/100 2F<br />
Tx/Rx<br />
1470<br />
Rx<br />
Rx<br />
Odd 100GHz<br />
Tx<br />
1<br />
Even Rx<br />
2<br />
Mon<br />
Mon<br />
Ext<br />
OA2<br />
OA2<br />
Tx<br />
3<br />
Rx<br />
4<br />
OA1<br />
OA1<br />
Line<br />
OA 1<br />
OA 1<br />
I/O Tx/Rx<br />
50GHz<br />
Tx<br />
5<br />
Tx<br />
NcRx<br />
6<br />
1 Tx<br />
1 1<br />
2 Rx<br />
2 Rx<br />
2<br />
DWDM CWDM<br />
Ext<br />
Tx<br />
Rx<br />
Tx<br />
Rx<br />
I/O<br />
Tx<br />
Rx<br />
CWDM<br />
Wrist strap<br />
2F<br />
1<br />
2<br />
3<br />
4<br />
5<br />
6<br />
HIGH DENSITY DESIGN<br />
Ultra-dense 80-channel 10 Gb/s – Single-chassis<br />
Solution<br />
In simpler point-to-point networks, such as within data center<br />
interconnect networks, some of the functionality included<br />
above is not needed and it is possible to optimize the space<br />
usage even further.<br />
These networks may not require amplifiers if the distance<br />
is less than 80 kilometers (km). If there are no intermediate<br />
amplifier sites, then the optical supervisory units aren’t<br />
required and neither is the optical channel monitor as perwavelength<br />
power balancing isn’t required.<br />
This leaves a simple configuration with just 14 Hex<br />
transponders, two optical filters and two optical interleavers<br />
to support all 80 channels. If we utilize the 40-channel<br />
filters from the TG-Series range, then it is possible to fit all<br />
remaining components within a single TM-3000 chassis as<br />
shown below.<br />
Packet-optical Convergence<br />
Infinera is a leader in the move to packet-optical convergence in metro<br />
networks via the TM-Series Native Packet Optical 2.0 architecture.<br />
From a density and power perspective, this trend in general should<br />
be positive for all vendors as two types of equipment are being<br />
merged into a single platform that should save space and power.<br />
However, the TM-Series’ low power design and high density design<br />
emphasis has pushed this further with the EXMP family of very<br />
compact Layer 2 packet-optical transport switches, which can provide<br />
up to 220 Gb/s of Ethernet switching with embedded transponder<br />
functions into a double-slot unit.<br />
The EMXP also provides very low power consumption when compared<br />
to an architecture in which Layer 1 and Layer 2 functions are separated<br />
in different units as well as when compared to competitive solutions.<br />
Fan A<br />
Fan status<br />
OK<br />
Alarm<br />
22 21 20 19 18<br />
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17<br />
TPMRH-L<br />
TPMRH-L<br />
TPMRH-L<br />
OIU-C<br />
16G<br />
16G<br />
16G<br />
50/100<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode Transmode<br />
Transmode<br />
Transmode<br />
Console<br />
RS 232<br />
Console<br />
ExtAlarm<br />
ICN1 ICN2<br />
Console<br />
RS 232<br />
TP2 TP3 TP4 TP5 TP6<br />
Console<br />
RS 232<br />
TP2 TP3 TP4 TP5 TP6<br />
Console<br />
RS 232<br />
TP2 TP3 TP4 TP5 TP6<br />
Console<br />
RS 232<br />
TP2 TP3 TP4 TP5 TP6<br />
Console<br />
RS 232<br />
TP2 TP3 TP4 TP5 TP6<br />
Console<br />
RS 232<br />
TP2 TP3 TP4 TP5 TP6<br />
Console<br />
RS 232<br />
TP2 TP3 TP4 TP5 TP6<br />
Console<br />
RS 232<br />
14x HEX TPs<br />
TP2 TP3 TP4 TP5 TP6<br />
Fan B<br />
Console<br />
RS 232<br />
TP2 TP3 TP4 TP5 TP6<br />
Console<br />
RS 232<br />
TP2 TP3 TP4 TP5 TP6<br />
Console<br />
RS 232<br />
TP2 TP3 TP4 TP5 TP6<br />
Console<br />
RS 232<br />
TP2 TP3 TP4 TP5 TP6<br />
Console<br />
RS 232<br />
TP2 TP3 TP4 TP5 TP6<br />
Console<br />
RS 232<br />
OIU-C<br />
50/100<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Tx 3 4<br />
Console<br />
2x OA<br />
TP2 TP3 TP4 TP5 TP6<br />
OIU<br />
OIU<br />
• Complete 800 Gb/s<br />
(80x10 Gb/s) network<br />
elements in 13 RU<br />
(11 + 1 + 1)<br />
• ~450 W power<br />
consumption in card<br />
cage*<br />
• Active transponders<br />
in a TM-3000/II chassis<br />
• 40-channel mux/<br />
demux units (MDUs)<br />
using rack-mounted<br />
TG-Series filters<br />
• Ideal for data center<br />
interconnects<br />
Convergence Example – ROADM and EMXP<br />
80-channel 10 Gb/s Ring Configuration<br />
As an example of packet-optical convergence, the configuration<br />
below combines the EMXP 120 with 12 10 Gb/s ports and<br />
the TM-Series ROADM-based flexible optical networking<br />
architecture to create a highly flexible ring node.<br />
The node supports all necessary functions, such as optical<br />
channel monitoring and optical supervisor channels along with<br />
colorless and directionless ROADM-based optical switching<br />
and EMXP-based Ethernet switching.<br />
The TG-Series filters are fully managed by the Infinera<br />
Enlighten ® multi-layer management suite, so there is no loss<br />
of functionality with the move to these filters.<br />
Fan A<br />
Fan status<br />
OK<br />
Alarm<br />
22 21 20 19 18<br />
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17<br />
OCM<br />
AD 1Ch<br />
Transmode Transmode Transmode Transmode Transmode<br />
2p<br />
Transmode Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode Transmode Transmode Transmode<br />
Transmode Transmode<br />
Transmode<br />
PWR<br />
Console<br />
RS 232<br />
Console<br />
ExtAlarm<br />
ICN1 ICN2<br />
Console<br />
RS 232<br />
SFP+ Port<br />
Console<br />
RS 232<br />
SFP+ Port<br />
Console<br />
RS 232<br />
EMXP120/IIE<br />
SFP+ Port<br />
RS 232<br />
Console<br />
RS 232<br />
Console<br />
Fan B<br />
RS 232<br />
Console<br />
Console<br />
RS 232<br />
ROADM MDU CL<br />
Tx<br />
Rx<br />
Tx<br />
Rx<br />
Tx<br />
Rx<br />
Tx<br />
Rx<br />
Tx<br />
Rx<br />
Tx<br />
Rx<br />
Tx<br />
Rx<br />
Tx<br />
Rx<br />
OCM<br />
2x OA<br />
2x OA<br />
OSC<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Transmode<br />
Tx Rx<br />
33<br />
RS 232<br />
Console<br />
Console<br />
Tx 3 Tx 3 4<br />
4<br />
Console<br />
OSC<br />
• Colorless,<br />
directionless, twodimensional<br />
ROADM<br />
configuration in a<br />
single 11 RU chassis<br />
• Less than 370 W<br />
power consumption<br />
in card cage*<br />
• 160 Gb/s<br />
(16x10 GbE-LAN)<br />
add/drop using<br />
EMXP120/IIE<br />
4
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