Product Introduction
Network Master Pro
MT1040A
400G Analyzer
2
Contents
1. MT1000A – Multiple Modules for Flexibility
2. MT1040A Product Introduction
Concept
Hardware
Key Features
Simple Quality Check with FEC Analysis
Applications
Useful Functions
Automation Testing, Cloud service operation
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MT1000A Today – Multiple Modules for Flexibility 1/2
MU100010A: 10G Multirate Module
MU10002xA: OTDR Modules
MU100040B: CPRI RF Module
MU100090A: GPS Disciplined Oscillator*2
Module
MT1000A: Main Unit
MU100011A: 100G Multirate Module*1
*1: Requires MT1000A-006
*2: Requires MT1000A-005
Transport testing up to 100 Gbps
2 ports: 1.5 Mbps to 10 Gbps
(RJ45, SFP+/SFP, RJ48, BNC, BANTAM)
(OTN, Ethernet, SDH/SONET/PDH/DSn, CPRI, FC)
OTDR Modules
MU100020A 1310/1550 nm SMF
MU100021A 1310/1550/850/1300 nm SMF/MMF
MU100022A 1310/1550/1625 nm SMF
MU100023A 1310/1550 nm, 1650 nm SMF
CPRI RF (Spectrum Test) Module
2 ports: Up to 9.8 Gbps
Transport testing up to 100 Gbps
Single port: 16/25/40/100 Gbps (CFP4, QSFP+, QSFP28,
SFP28)
2 ports: Up to 10 Gbps (SFP/SFP+, RJ45)
Supports newest 25G Single Mode Fiber
Rubidium Oscillator Modules
This module contains a rubidium transmitter. It
receives GPS signals and provides a more accurate
time to the MT1000A.
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MT1000A Today – Multiple Modules for Flexibility 2/2
• Flexibility and scalability to cut operating costs
• Stackable, easily-changed Anritsu modules for flexible customized test
configuration
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MT1000A Today – 100G
Interface Ethernet OTN SDH/SONET Fibre Channel CPRI/OBSAI
CFP4 100GbE OTU4 - - -
QSFP28 100GbE OTU4 - - -
QSFP+ 40GbE OTU3 - - -
SFP28
/SFP+/SFP
25GbE
/10GbE/GbE
OTU2x
/OTU1x
STM1 to 64
OC3 to 192
1 to 16G FC CPRI 1/2/3/4/5/6/7/8
OBSAI 1x/2x/4x/8x
RJ45 10/100
/1000M
- - - -
CFP4 QSFP28/QSFP+ SFP28/SFP+/SFP
RJ45×2
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400 GbE and 100 GbE Standards Differences
400 GbE 100 GbE
IEEE802.3 (2018) Section 8 Section 6
FEC Mandatory
(KP4 FEC)
Option for “SR4”,”CWDM4”,
etc. (KR4 FEC)
FEC Code (Codeword length, Information length,
Correctable Symbol Number, bits per symbol)
RS (544, 514, 15, 10) RS (528, 514, 7, 10)
Number of Lanes & Technology
(Lane Configuration
from PCS to PMD)
25G x 16 (NRZ) – 53G x 8
(PAM4) – 8 lanes
25G x 16 (NRZ) – 53G x 8
(PAM4) – Gearbox (8 to 4) - 4
lanes
25G x 4 (NRZ) - 4 lanes
Optical Transceivers QSFP-DD
OSFP
CFP8
QSFP28
CFP4/CFP2/CFP
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Comparison of Main Units: Top/Front/Bottom Views
MT1000A MT1040A
For Handle Strap
ハンドル用ストラップが付属。取り外しできません。
Fixed Spacer for Ventilation
2-module width
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Comparison of Main Units: Side View
MT1040A + MU104014A
Right Left
MT1000A + MU100011A
Right Left
One Battery Two Batteries
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Network Master Pro MT1040A Product Concept
World's smallest-in-class portable 400G analyzer for expanding
Ethernet networks, and supporting evolution of 5G and data-center
communications traffic
Features • World‘s smallest-in-class portable 400G analyzer
• Quantitative evaluation supporting 400G FEC technology change
• Automated testing for improved customer testing efficiency
• Efficient expandability using stackable design
• Cloud operation
Target Customers ・R&D departments of operators, IX, DC, NEMs and system vendors to develop/qualify NEs
・Operators/NEMs construction maintenance teams, and related construction companies
・R&D departments of transceiver/cable vendors for evaluating product performance
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Network Master Pro MT1040A - Hardware - New Network Master Pro Main Unit
Battery operation at 400G (can move tester between measurement
locations while powered-on)
Compatible with all current hardware modules
Simultaneously install 400G module and current modules
i.e. 400G + OTDR
400G Multirate Module One 400G port (MU104014A/MU104015A)
Two ports for 100G and lower bit rates (MU104014A)
Direct module support for QSFP-DD, OSFP, QSFP28, SFP/SFP+/SFP28
Supports 10M to 400G Ethernet and 2.6G-100G OTN
RJ45 x2
SFP/SFP+/SFP28 x2
134 m
m
261.6 mm
Main
Unit
400G/100G
Multirate
Module
Two module configurations
MU104014A: QSFP-DD + QSFP28 (400G x 1, 100G x 2)
MU104015A: OSFP + QSFP28 (400G x 1,100G x 1)
Not possible to use MT1000A with future 400G
module. but possible to use MT1040A with all
modules except MU100040B/MU100090A.
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MT1040A Dedicated Measurement Modules
MU104014A 400G (QSFP-DD) Multirate module
MU104015A 400G (OSFP) Multirate module
SFP28/SFP+/SFP
10/100/1000BASET-T QSFP28/QSFP+
QSFP-DD
/QSFP28/QSFP+
SFP28/SFP+/SFP 10/100/1000BASET-T QSFP28/QSFP+ OSFP
Test Interfaces
400G 1 port (QSFP-DD)
100G/40G/25G/10G/1G/100M/10M 2 ports
Test Interfaces
400G 1 port (OSFP)
100G/40G 1 port (QSFP28/QSFP+)
25G/10G/1G/100M/10M 2 ports
MU104011A 100G Multirate module
SFP28/SFP+/SFP 10/100/1000BASET-T QSFP28/QSFP+
Test Interfaces
100G/40G/25G/10G/1G/100M/10M 2 ports
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Outline Specifications
General • Quantitative evaluation and easy-to-understand
graphical display of 400G FEC corrected Symbol Error distribution
• Direct adapter-free QSFP-DD or OSFP installation
• One-button operation from settings to results display for efficient field testing
• Easy connections anywhere using cloud-based service
• VNC remote and multi-user access matching usage environment with support for remote commands
• Support for diverse communications standards, including Ethernet, OTN, SDH/SONET, eCPRI/RoE, CPRI/OBSAI, FC
• Support for 400G BASE-LR4, FR4, DR4 and DAC/AOC covering main usage range
• Full support for 400G I&M, using simultaneously installed OTDR and 400G modules
Test Interfaces
Key Ethernet Functions
• 400 GbE BERT, Throughput, Latency, and
Multistream tests
• RFC2544 Tests
• DUT Performance tests using 400G FEC
corrected Symbol Error distribution
Pass/Fail evaluations
QSFP
-DD OSFP
QSFP28
/QSFP+
SFP28/
SFP+/SFP RJ45
MU104014A x1 x2 x2 x2
MU104015A x1 x1 x2 x2
MU104011A x2 x2 x2
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Use Case and Module Configuration
Transport Configuration
With OTDR
MT1040A
MT1040A
Transport 2
OTDR
Transport 2
Through Mode Monitoring
with Dual Port Configuration
ONU
Transport
Transport
OTDR
OLT
400 GbE
Through Mode
“Sync Test (PTP)” Application not supported
Transport 2
400G 1 port/100G 2 port
module
OTDR
MU100020A:1310/1550
MU100021A:1310/1550/850/1300
MU100022A:1310/1550/1625
MU100023A: 1310/1550/1650
100/400 GbE
Router
400 GbE
Client
Lower Rate
Ethernet
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Easy Detailed Quality Check with FEC Analysis
Network errors are likely to occur when very high-
speed signals flow through 400G optical
transceivers. IEEE802.3 specifies error correction using FEC.
This technology change assures communication
quality and cuts costs. Checking the FEC correction rate offers an easy
check of optical-transceiver communications signal
quality.
■Easy tests of optical transceiver operation are:
BER-based Pass/Fail check
Optical output power monitoring
Internal status check using MDIO/I2C register access
■In addition, FEC is always ON to guarantee 400GbE Ethernet frame quality, so it is important to
check the FEC error correction status.
A quantitative performance check using the MT1040A FEC corrected Symbol Error distribution
supports selection of non-defective products before commissioning optical transceivers.
Also, if a failure occurs, the optical transceiver can be analyzed easily using a dedicated
Pass/Fail sanity check.
Example GUI
Frames that exceed
the threshold
Good Frame
Frames with high
error correction
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Data Center ToR/Leaf Level Construction/Maintenance
■ Measurements at Data Center (DC) Interconnect I&M
• BER
• Latency
• Throughput
400G Ethernet
Portable, small, lightweight main unit facilitates
smooth workflow, such as commissioning tests
between data centers and between
floors/buildings in data center, and at equipment
upgrades.
400G Ethernet
DCI
400GbE
DCI
400GbE
DCI
400GbE
DC DC
DCI: Data Center Interconnect
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400G Device Tests
■Framed 400G Ethernet with FEC and No frame BER Test QSFP-DD, OSFP and cables can be mounted directly, for simple performance checks and pass/fail evaluations using arbitrary
thresholds. Frame Loss, Frame Loss Ratio FEC Corrected Symbol Error Distribution FEC Corrected Symbol Error Rate MDIO/I2C Register Access No Frame (PRBS) Pattern BER
Optical Loopback Test
Basic End-to-End Test
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400G Network Installation & Maintenance (I&M)
■I&M Measurement for Lines with 400G
End-to-End
• BER • Latency
• Throughput
Supports 10M to 400G Ethernet as well as 2.6G to 100G OTN for measuring
various deployed-line combinations
All-in-one compatibility with Transport and OTDR Fiber Test
All-in-one instrument with all required on-site measurement functions
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Optical Transceiver MDIO/I2C Access Analysis
MDIO and I2C Interface Support
for Monitoring and Troubleshooting
Per lane support for:
• Power level measurement
• Independent power-on/off operation
Register access and status analysis
Automation using SEEK
Example of I2C Access
Example of SEEK Result Example of Power Meter and Power-On/Off
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Turnkey Solution
SEEK
One-button measurement
Automates all operations from settings to results Slashes measurement times
One-button automation of complex procedures Easy measurement
Prepare multiple scenarios matching measurement
targets and goals
Improves test efficiency
Test equipment can be shared by several operators
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Remote Access and Control via Cloud
Easy Connections Anywhere using MX109020A*
Instruments can be remotely controlled easily anywhere using the MX109020A
Site Over Remote Access (SORA) software.
The SORA cloud-based service allows office users to log-in to an Internet
webpage to remote-control the instrument from the office via a smartphone
connection.
*This product cannot be used in some regions and countries; please read the service terms for more details.
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Remote Access and Control
VNC
Port 2
MX100001A
MX100001A
Port 1
VNC
In-Band Control and Auto-Discovery
One Engineer Performs End-to-End
Test One engineer controls both local and remote testers
without dedicated LAN for remote access
Testing from one end cuts operating expenses
Remote Control MX100001A
Software
Remote GUI operation
Remote wake-up
Remote shutdown
Remote firmware update
VNC (Remote Operation)
Multi-user access
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Appendix
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2020-7 MJM No. MT1040A_400G-E-L-4-(1.01)