The documentation set for this product strives to use bias-free language. For the purposes of this documentation set, bias-free is defined as language that does not imply discrimination based on age, disability, gender, racial identity, ethnic identity, sexual orientation, socioeconomic status, and intersectionality. Exceptions may be present in the documentation due to language that is hardcoded in the user interfaces of the product software, language used based on RFP documentation, or language that is used by a referenced third-party product. Learn more about how Cisco is using Inclusive Language.
Video traffic continues to grow rapidly. It would take more than 5 million years to watch the amount of video that will cross global IP networks each month in 2021. Every second, a million minutes of video content will cross the network. Content Delivery Networks (CDNs) will carry 71 percent of Internet traffic by 2021. Content providers will need to scale their networks at speed to keep up with the demand for more video. Networks needs to be designed with “web-scale” in mind. A web-scale network needs to scale at deployment speed while being operationally simple. Network Convergence System 1004 uses state of the art silicon along with complete automation and real-time visibility to deliver a universal transponder solution that provides best-in-class performance for metro, long-haul and submarine applications while being simple to deploy and manage.
NCS1004 1.2T transponder can provide up to 12 100Gbe/OTU4 client ports. The client ports map to two trunk ports operating any rate between 100G and 600G in 50G increments. The baud-rate, modulation format and FEC of each trunk port is software-configurable per slice, where each slice is a combination of a sequence of 6 client ports.
The trunk ports are capable of several line rates with fine control of modulation format, baud-rate and forward error correction allowing the solution to be used for metro, terrestrial long-haul or submarine applications:
● The baud-rate can be controlled between 28Gbd/s and 72Gbd/s.
● The modulation format can be controlled between BPSK, QPSK, 8-QAM, 16QAM, 32QAM and 64QAM.
● Hybrids between modulation formats can be configured to achieve 0.001 bits/symbol of granularity.
● Forward Error Correction (FEC) of 27% and 15% overhead.
● Trunk line rate from 50G to 600G in 100G increments.
Cisco NCS 1004 1.2T C band line card
The Cisco NCS 1004 system provides the following hardware benefits:
● Transport of any trunk rate between 100 and 600-Gbps wavelengths on the same platform through software provisioning.
● Support of granular control of baud-rate and modulation format to maximize spectral efficiency.
● One universal transponder that is performance optimized for metro, long-haul and submarine applications.
● Support for up to 350,000 ps/nm of residual chromatic dispersion compensation.
● Transport of 100GE, OTU4 and 400GE on the same platform through software provisioning.
● 600G DWDM provides unparalleled scale and density. With 64 channels of 600G at 75Ghz, the NCS 1004 provides 38.4Tbps in 16RU.
● State of the art AES-256 Encryption at scale – 4.8Tbps of encrypted trunk capacity per 2RU.
● Non-Linear Compensation for maximum performance on compensated legacy subsea cables and for non-linear terrestrial fibers.
● SOP tracking speed of up to 10 million rad/s for aerial fiber applications.
The Cisco NCS 1004 1.2T transponder features a software configurable modulation scheme per slice, allowing the operator to customize the spectral efficiency and reach characteristics of individual wavelengths. Supported modulation formats are detailed in Table 1.
Table 1. Supported modulation formats
Capacity |
Baud Rate |
Modulation Scheme |
100Gbps |
24.02 to 69.4Gbaud in 0.3Gbd increments |
1 to 2.890625 bits/symbol in 0.008 bits/symbol increments |
150Gbps |
24.02 to 71.6Gbaud in 0.3Gbd increments |
1.453125 to 3.9375 bits/symbol in 0.008 bits/symbol increments |
200Gbps |
24.02 to 71.8Gbaud in 0.3Gbd increments |
1.7578125 to 5.25 bits/symbol in 0.008 bits/symbol increments |
250Gbps |
26.27 to 72Gbaud in 0.3Gbd increments |
2.4140625 to 6 bits/symbol in 0.008 bits/symbol increments |
300Gbps |
31.52 to 72Gbaud in 0.3Gbd increments |
2.8984375 to 6 bits/symbol in 0.008 bits/symbol increments |
350Gbps |
36.78 to 72Gbaud in 0.3Gbd increments |
3.0703125 to 6 bits/symbol in 0.008 bits/symbol increments |
400Gbps |
46.3 to 72Gbaud in 0.3Gbd increments |
3.859375 to 6 bits/symbol in 0.008 bits/symbol increments |
450Gbps |
47.2 to 72Gbaud in 0.3Gbd increments |
3.945 to 6 bits/symbol in 0.008 bits/symbol increments |
500Gbps |
52.5 to 71.8Gbaud in 0.3Gbd increments |
4.3828125 to 6 bits/symbol in 0.008 bits/symbol increments |
550Gbps |
57.8 to 71.8Gbaud in 0.3Gbd increments |
4.8203125 to 6 bits/symbol in 0.008 bits/symbol increments |
600Gbps |
71.8Gbaud |
5.27 bits/symbol |
The line interface supports software-provision able tunability across the full C band, covering 96 channels across 191.25 to 196.10 Thz (1528.77 to 1566.72 nm). Grid-less tuning support allows for continuous tunability in increments of 0.1 GHz and the ability to create multicarrier super-channels over flex spectrum line systems.
The Cisco NCS 1004 1.2T transponder can transparently deliver 100Gbe and OTU4 clients over 2x 100G-600G.
Fine Control of Coherent DWDM interface
The Cisco NCS 1004 1.2T transponder provides the ability to modify baud-rate and modulation format with fine control to meet capacity and reach requirements for a range of use-cases as shown in Figure 2.
● Use 69Gbaud/s line rates to maximize capacity at lowest price per bit for Metro and Long-Haul networks.
● Use real-time network bandwidth and performance data to maximize line rate capacity on coherent DWDM interface.
● Support line rates that can maximize capacity for bandwidth constrained 50Ghz and 100Ghz spaced legacy ROADM networks.
● Maximize spectral efficiency on submarine cable line system for the target Q-margin.
Controlling baud-rate and bits/symbol for line rates from 50G to 600G to meet reach and capacity needs with NCS 1004 1.2Tbps line card
With increasing asks for data privacy and data protection across the globe, encryption of any data that leaves the Data Center facility is becoming an important requirement for cloud operators. The NCS 1004 1.2T line card provides AES256 based OTN-Sec encryption for 100GE and OTU4. IKEv2 is used for authentication of the devices in an encryption session and the protocol provides pre-shared keys, certificates or 802.1X based authentication options. Elliptical Curve Diffie Hillman (ECDH) Key Exchange protocol runs over a GCC (Generic Communication Channel) between two NCS1004 1.2T line card nodes.
The Cisco NCS 1004 1.2T line card supports all management feature as mentioned in the NCS 1004 system datasheet.
The Cisco NCS 1004 1.2T line card supports performance monitoring of optical parameters on the client and DWDM line interface including laser bias current, transmit and receive optical power. Ethernet RMON statistics for the client ports and OTN error counters for the trunk are also available. Calculation and accumulation of the performance-monitoring data are supported in 15-minute and 24-hour intervals as per G.7710. Physical system parameters measured at the wavelength level, such as mean polarization mode dispersion, accumulated chromatic dispersion, pre-FEC Bit Error Rate and received Optical Signal-to-Noise Ratio (OSNR) are also included in the set of performance-monitoring parameters. These parameters can greatly simplify troubleshooting operations.
Table 2. Client and Trunk PM parameters
Port |
PM Parameters |
Client |
● LBC, OPT, OPR, FREQ_OFF
|
Trunk |
● LBC, OPT, OPR, CD, DGD, SOPMD, OSNR, PDL, PCR, RX_SIG, FREQ_OFF, PREFEC BER, POSTFEC BER, Q,Q_ Margin
|
The NCS 1004 1.2T line card provides a set of port and system LEDs for a quick visual check of the operational status. The various LEDs are described in detail in Table 8.
Licensed NCS 1004 1.2T Transponder
The licensed NCS 1004 1.2T line card provides pay as grow model with 4x 100G of unencrypted client capacity day-1 that the user can build on. User can purchase 100G incremental licenses to grow to 12x 100G capacity per card.
Pre- IOS X.R release 7.3.2 behavior:
Trunk port of licensed 1.2T line card supports 400G and above rates only i.e. 400-600G. Capacity of 4x 100GE/OTU4 unencrypted available to the user day-1 per line card. 100G incremental client licenses available to grow from 4x100G to full 12x 100G capacity for unencrypted cases and 0 to 12x100G capacity for encrypted cases.
IOS X.R release 732 and later:
Trunk port of licensed 1.2T licensed line card supports all line rates i.e. 100-600G. Capacity of 4x 100GE/OTU4 unencrypted available to the user day-1 per line card at 16QAM and higher modulation formats. 100G incremental client licenses available to grow from 4x100G to full 12x 100G capacity for unencrypted cases and 0 to 12x100G capacity for encrypted cases. Customer also needs to buy long haul and subsea licenses as required to enable corresponding modulation formats and special settings. The long-haul license is required to enable QPSK and 8QAM modes. The subsea license is available to enable BPSK and subsea specific controls (extended chromatic dispersion, special non-linear compensation settings etc.)
IOS X.R release 7.10.1 and later:
The licensed line card supports a generic licensing scheme from 7.10.1 XR SW release. The trunk port of licensed 1.2T licensed line card supports all line rates i.e. 100-600G. Capacity of 4x 100GE/OTU4 unencrypted available to the user day-1 per line card at 16QAM and higher modulation formats. 100G universal incremental client licenses S-NCS1K4-ULIC-100= are available to grow from 4x100G to full 12x 100G capacity for unencrypted cases and 0 to 12x100G capacity for encrypted cases using S-NCS1K4-LIC-100X=. Any existing user with licensed line card shall upgrade to 7.10.1 release using a zero dollar upgrade PID S-NCS1K4-UPG-100=. The universal client licenses are supported across 1.2T transponder, 1004 OTN transponder and 800G QSFP-DD transponder. Customer also needs to buy long haul and subsea licenses as required to enable corresponding modulation formats and special settings. The long-haul license is required to enable QPSK and 8QAM modes. The subsea license is available to enable BPSK and subsea specific controls (extended chromatic dispersion, special non-linear compensation settings etc.)
The following table summarizes the features of the NCS 1004.
Table 3. Feature summary
Feature |
Description |
Software Compatibility |
● IOS-XR 7.0.1 or later with NC1004 system
|
Port Density |
● 48 /QSFP28 client-side ports
● 8 DWDM line/trunk ports
|
OTN feature summary |
● Alarm reporting for Loss Of Signal (LOS), Loss Of Frame (LOF), Loss Of Multi-frame (LOM), Alarm Indication Signal (AIS), Backward Defect Indicator (BDI)
● OTUk, ODUk, OPUk Performance Monitoring
● Threshold Crossing Alerts (TCAs)
● Local (internal) and line (network) loopbacks
● Trunk Trace Identifier, Generic Communication Channel
● L1 AES-256 encryption
|
Optical Feature Summary |
● 50GHz and flex-grid (0.1GHz) tunable lasers
● Nyquist shaping
● Non-Linear Equalization
● Electronically compensated CD and PMD
● Performance Monitoring and Threshold Crossing Alerts (TCAs)
● Tx and Rx power monitoring
|
Ethernet Feature Summary |
● Alarms and Performance Monitoring
● Squelch and Local Fault Propagation
● LLDP Snooping
● Performance Monitoring and Threshold Crossing Alerts (TCAs)
● Local (internal) and line (network) loopbacks
|
Network Management |
● iPXE and Zero Touch Provisioning (ZTP)
● IOS XR CLI
● SNMP
● Streaming Telemetry including event driven telemetry
● NETCONF, RESTCONF, gRPC with YANG data models
|
Physical Dimensions |
● 1.59" tall x 7.55" wide x10.90" deep
● Weight: 3.2Kg
|
Power |
● Max:230W, Typ:215W (without client optics).
|
Table 4 lists regulatory compliance information for the trunk card. Note that all compliance documentation may not be completed at the time of product release. Please check with your Cisco sales representative for countries that are not listed below.
Table 4. Regulatory compliance
ETSI System |
|
Countries and Regions Supported |
|
● Canada
● United States
● Korea
● Japan
● European Union
|
● European Union
● Africa
● CSI
● Australia
● New Zealand
● China
● Korea
● India
● Saudi Arabia
● South America
|
●
EMC (Emissions)
|
● FCC 47CFR15, Class A
● AS/NZS CISPR 32, Class A
● CISPR 32, Class A
● CISPR 22, Class A
● EN55032, Class A
● ICES-003, Class A
● VCCI, Class A
● KN 32, Class A
● KN61000—3-2
● KN61000-3-3
● CNS-13438, Class A
|
●
EMC (Immunity)
|
● IEC/EN61000-4-2 Electrostatic Discharge Immunity
● IEC/EN61000-4-3 Radiated Immunity
● IEC/EN61000-4-4 EFT-B Immunity
● IEC/EN61000-4-5 Surge AC Port
● IEC/EN61000-4-6 Immunity to Conducted Disturbances
● IEC/EN61000-4-11 Voltage Dips, Short Interruptions, and Voltage Variations
● KN 35
|
●
EMC (ETSI/EN)
|
● EN 300 386 Telecommunications Network Equipment (EMC)
● EN55032 Electromagnetic Compatibility of Multimedia Equipment- Emission Requirements
● EN55022 Information Technology Equipment (Emissions)
● EN55035 Electromagnetic Compatibility of Multimedia Equipment- Immunity Requirements
● EN55024 Information Technology Equipment (Immunity)
● EN61000-6-1/EN61000-6-2 Generic Immunity Standard
● EN61000-3-2 Power Line Harmonics
● EN61000-3-3 Voltage Changes, Fluctuations, and Flicker
|
Safety |
|
● CSA C22.2 #60950-1 – Edition 7, March 2007
● UL 60950-1 - Edition 2, 2014
|
● IEC 60950-1 Information technology equipment Safety Part 1: General requirements - Edition 2, 2005 + Amendment 1 2009 + Amendment 2 2013
● EN 60950-1: Edition 2 (2006) Information technology equipment - Safety - Part 1: General requirements + A11:2009 + A1:2010 + A12:2011 + A2:2013
● CE Low Voltage Directive (LVD): 2014/35/EC
|
Laser |
|
● 21CFR1040 (2008/04) (Accession Letter and CDRH Report) Guidance for Industry and FDA Staff (Laser Notice No. 56), May 2019
|
● IEC 60825-1: 2014-05 Ed. 3.0Safety of laser products Part 1: Equipment classification, requirements and users guide
● IEC60825-2 Ed.3.2 (2010) Safety of laser products Part 2: Safety of optical fibre communication systems
|
Optical |
|
● ITU-T G.691
|
● ITU-T G.975
|
Quality |
|
● TR-NWT-000332, Issue 4, Method 1 calculation for 20-year Mean Time Between Failure (MTBF)
|
Table 5 provides the DWDM specifications, Table 5 details receive-side optical performances, Table 6 lists performance-monitoring parameters, Table 7 provides card specifications, Table 8 gives ordering information.
Table 5. DWDM specifications
Parameter |
Value |
Baud rate |
24 to 72Gbaud/s |
Automatic laser shutdown and restart |
ITU-T G.664 (06/99) |
Nominal wavelengths (lTnom) |
Fully tunable between 1528.77 and 1566.72 nm |
Connector type (TX/RX) |
LC, duplex (shuttered) |
Optical Transmitter |
|
Type |
PM-BPSK modulation format PM-QPSK modulation format PM-8QAM modulation format PM-16QAM modulation format PM-32QAM modulation format PM-64QAM modulation format Hybrids of adjacent modulation allowing 1 to 6 bits/symbol in 0.001 bits/symbol increments. |
Output power |
+3 to -10 dBm in 0.01 dBm increments |
Required optical return loss, minimum (ORLmin) |
24 dB |
Laser safety class |
1 |
Optical Receiver |
|
Frequency range |
191.25 to 196.10 Thz (1528.77 to 1566.72 nm) |
Input Power Range (64QAM) |
-8 to +5 dBm |
Input Power Range (32QAM) |
-15 to +5 dBm |
Input Power Range (16QAM) |
-17 to +5 dBm |
Input Power Range (8QAM, QPSK) |
-22 to +5 dBm |
Power accuracy |
+/- 1 dBm |
Optical Return Loss |
27 dB |
PMD tolerance @ 69Gbaud/s |
64ps max DGD |
Chromatic Dispersion tolerance @ 0.5db penalty |
+/-100,000 ps for QPSK/8QAM +/-80,000 ps for 16QAM +/-15,000 ps for 32QAM +/-10,000 ps for 64QAM |
Chromatic Dispersion tolerance @ 1db penalty |
+/-350,000 ps for BPSK, QPSK, 1.5bits/sym, 2.5 bits/sym +/-280,000 ps for 8QAM +/-200,000 ps for 3.5 bits/sym +/-150,000 ps for 16QAM |
State of Polarization change tolerance |
100,000 rad/s for QPSK/8QAM 50,000 rad/s for 16QAM, 32QAM, 64QAM |
Table 6. DWDM receive-side optical performances
Modulation Type |
FEC Type |
Pre-FEC BER |
Post-FEC BER |
Input Power Sensitivity |
CD Tolerance |
DGD |
Required worst case OSNR (0.1 nm RBW) |
PM-BPSK (100G) |
SD-FEC (27% overhead) |
<3.75x10E (–2) |
<10E (-15) |
0 to -16 dBm |
0 ps/nm |
- |
10.5 dB |
+/- 100,000 ps/nm |
64 ps |
11 dB |
|||||
+/- 350,000 ps/nm |
64 ps |
11.7 dB |
|||||
PM-QPSK (200G) |
SD-FEC (27% overhead) |
<3.75x10E (–2) |
<10E (-15) |
0 to -16 dBm |
0 ps/nm |
- |
13.5 dB |
+/- 100,000 ps/nm |
64 ps |
14 dB |
|||||
+/- 350,000 ps/nm |
64 ps |
14.7 dB |
|||||
PM-8QAM (300G) |
SD-FEC (27% overhead) |
<3.75x10E (–2) |
<10E (-15) |
0 to -13 dBm |
0 ps/nm |
- |
17.5 dB |
+/- 100,000 ps/nm |
64 ps |
18 dB |
|||||
+/- 280,000 ps/nm |
64 ps |
18.7 dB |
|||||
PM-16QAM (400G) |
SD-FEC (27% overhead) |
<3.75x10E (–2) |
<10E (-15) |
0 to -10 dBm |
0 ps/nm |
- |
21 dB |
+/- 80,000 ps/nm |
64 ps |
21.5 dB |
|||||
+/- 150,000 ps/nm |
64 ps |
22.2 dB |
|||||
PM-32QAM (500G) |
SD-FEC (27% overhead) |
<3.75x10E (–2) |
<10E (-15) |
0 to -9 dBm |
0 ps/nm |
- |
25.4 dB |
+/- 15,000 ps/nm |
64 ps |
26.4 dB |
|||||
PM-64- QAM (600G) |
SD-FEC (27% overhead) |
<3.75x10E (–2) |
<10E (-15) |
0 to -6 dBm |
0 ps/nm |
- |
30 dB |
+/- 10,000 ps/nm |
64 ps |
30.5 dB |
Table 7. Trunk Performance-monitoring parameters
Area |
Parameter Name |
Description |
OTUk Monitoring |
BBE |
Number of background block errors |
BBER |
Background block error ratio |
|
ES |
Number of errored seconds |
|
ESR |
Errored seconds ratio |
|
SES |
Number of severely errored seconds |
|
SESR |
Severely errored seconds ratio |
|
UAS |
Number of unavailable seconds |
|
FC |
Number of failure counts |
|
FEC |
Bit errors |
Number of corrected bit errors |
Uncorrectable words |
Number of uncorrectable words |
|
Q |
Q-factor |
|
Q-Margin |
Q-factor margin |
|
Trunk optical performance monitoring |
OPT |
Transmitter optical power |
LBC |
Transmitter laser bias current |
|
OPR |
Receiver optical power |
|
RCD |
Residual chromatic dispersion |
|
PMD |
Mean polarization mode dispersion |
|
OSNR |
Optical signal-to-noise ratio, calculated with 0.5-nm RBW |
|
SOPMD |
Second Order PMD (SOPMD) Estimation |
|
SOPCR |
Polarization Change Rate Estimation |
|
PDL |
Polarization Dependent Loss (PDL) Estimation |
Table 8. NCS 1004 1.2T line card specifications
Attention LED |
Blue |
Client and DWDM port LEDs
● No alarms
● Minor alarms
● Critical and Major alarms
|
Green Amber Red |
Storage temperature |
-40́̕°C to 85°C (-40°F to 185°F) |
Operating temperature
● Normal
|
0°C to 40°C (32°F to 104°F) |
Relative humidity
● Normal
● Short-term
1
|
5% to 85%, noncondensing 5% to 90% but not to exceed 0.024 kg water/kg of dry air |
1 Short-term refers to a period of not more than 96 consecutive hours and a total of not more than 15 days in 1 year (a total of 360 hours in any given year, but no more than 15 occurrences during that 1-year period). |
Table 9. Ordering information
Part Number |
Description |
NCS1K4-1.2T-K9= |
NCS1K4 12x QSFP28 2 Trunk C-Band DWDM card |
NCS1K4-1.2T-L-K9= |
NCS1K4 12x QSFP28 2 Trunk C-Band DWDM card - Licensed |
S-NCS1K4-LIC-100G= |
NCS1K4 smart license - one QSFP28 client |
E-NCS1K4-LIC-100G= |
NCS1K4 electronic license - one QSFP28 client |
S-NCS1K4-LIC-100X= |
NCS1K4 smart license - one QSFP28 client with encryption |
E-NCS1K4-LIC-100X= |
NCS1K4 electronic license - one QSFP28 client with encryption |
XR-NCS1K4-731K9 |
NCS 1004 IOS XR Software Release 7.3.1 RTU- USB key |
SF-NCS1K4-R731K9 |
NCS 1K - R7.3.1 SW, NCS1004-No RTU |
S-NCS1K4-LIC-LH= |
NCS1K4 smart license - enables 2-4 bps |
E-NCS1K4-LIC-LH= |
NCS1K4 e-delivery - enables 2-4 bps |
S-NCS1K4-LIC-SEA= |
NCS1K4 smart license - enables 1-4 bps and subsea parameters |
E-NCS1K4-LIC-SEA= |
NCS1K4 e-delivery - enables 1-4 bps and subsea parameters |
NCS1K4-1.2T-CW-K9= |
NCS1K4 12x QSFP28 2 Trunk C-Band DWDM card |
NCS1K4-1.2TLCW-K9= |
NCS 1004 1.2T Licensed Line Card - C-band |
S-NCS1K4-ULIC-100= |
NCS 1004 Universal 100G Client Smart License |
E-NCS1K4-ULIC-100= |
NCS 1004 Universal 100G Client E-delivery License |
S-NCS1K4-UPG-100= |
NCS 1004 Universal 100G Client Upgrade Smart License |
The following are the warranty:
● Hardware warranty duration: 5 years.
● Software warranty duration: 1 year.
● Hardware replacement, repair, or refund procedure: Cisco or our service center will use commercially reasonable efforts to ship a replacement part for delivery within 15 working days after receipt of the defective product at Cisco’s site. Actual delivery times of replacement products may vary depending on customer location.
Your formal warranty statement appears in the Cisco Information Packet that accompanies your Cisco product.
Product warranty terms and other information applicable to Cisco products are available at: https://www.cisco.com/go/warranty.
Flexible payment solutions to help you achieve your objectives
Cisco Capital makes it easier to get the right technology to achieve your objectives, enable business transformation and help you stay competitive. We can help you reduce the total cost of ownership, conserve capital, and accelerate growth. In more than 100 countries, our flexible payment solutions can help you acquire hardware, software, services and complementary third-party equipment in easy, predictable payments. Learn more.
New or revised topic |
Described In |
Date |
- |
- |
- |
|
|
|
|
|
|