chronos - lumacron.com · chronos 100g network protocol converter with 100% packet delivery, for...
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CHRONOS100G network protocol converter
with 100% packet delivery, for
Evolved Long Haul, Core, Metro and
Data Centre networks.
Optical transport networks are complex.
Lumacron's CHRONOS protocol converter is designed
to process up to 100Gbps of traffic on evolved, packet
optical networks in a compact and highly integrated 1RU
chassis.
Dynamic support for auto-discovery of Telecom and
Datacom protocols on a per port basis is integrated
seamlessly behind an easy to use RESTful interface, to
automate targeting and delivery of traffic for analytics,
monitoring and SIGINT applications.
100% network visibility.
Lumacron’s protocol converters provide instant access
to the full signal hierarchy on the target lambda,
facilitating informed decision making in the downstream
packet processing domain.
Empower your mission with feature-rich, 100G
throughput and 100% packet delivery from Long Haul,
Core, Metro and Data Centre networks.
© 2018 Lumacron Technology Limited. All rights reserved. Lumacron Technology Limited has used reasonable care in preparing the information included in this document, but does not warrant that
such information is error free. Lumacron Technology Limitited accepts no liability whatsoever for any damages incurred by you resulting from errors in or omissions from the information included
herein. This document may not be reproduced or duplicated in any form, in whole or in part, without prior written consent of Lumacron Technology Limited.
Instrumenting Optical Networks
TDM & Packet Protocol Support
Full support for the Optical Transport
Networks (OTN ITU G.709), Synchronous
Optical Network - Synchronous Digital
Hierarchy (SONET-SDH ITU G.707) and
Ethernet (IEEE 802.3) standards.
Dynamic Signal Auto-Discovery
Hassle-free network interfacing. No need to
pre-configure the platform to a known
protocol. Automatic and dynamic detection
and qualification of the incoming traffic
stream to determine type, rate and if
appropriate hierarchy structure. Bypass
mode available for non-standard streams.
Cost Effective Footprint
Smallest possible rack footprint with minimal
power and space requirements leading to
overall power savings vs. competing rack
mounted solutions. Lowest cost per
processed bit vs. competing solutions.
Operational Assurance
Architected to maximize airflow efficiency
and deliver long term reliability. Dual
redundant, load sharing and hot swappable
power supplies. Individually redundant, load
sharing and hot-swappable fan modules.
Fully automated control of power, voltage,
system and fault monitoring.
Highly Configurable
In-field upgrades available to bolster
datapath support and keep pace with
operator network provisioning. Control
p l a n e a n d e g r e s s d a t a s t r u c t u r e
customization to smooth integration with
existing infrastructure. Disaggregated
optical interfaces, supporting independent
Tx/Rx or fully bidirectional interfaces per
pluggable module.
Instrumenting Optical Networks
Technical Specifications
CPU Card
Chassis Ports /
Optical Module Support
Reliability
PSU
Form Factor
Dimensions
Weight
Humidity
Operating Temperature
Range
Embedded LINUX based CPU
12 x 10G / SFP-SFP
2 x QSFP28 (SR/LR/ER4)
High rel chassis, full data-path reboot, redundant
cooling fans, custom PCB heat-sinks, load-sharing,
redundant power supplies
100V/240V, 350W
1RU 19" rack mount
Height 43mm (1.7"), Width 483mm (19"),
Depth 350mm (13.8")
5.5Kg (12.1lb)
8% to 90% non-condensingo o o o41 F to 95 F (5 C to 35 C) ambient air
Mgt Interfaces
Front Panel Control
1Gb RJ45 Ethernet
Command Line Interface (CLI)
RESTful API
Simple Network Management Protocol (SNMP)
Data Ports / Management Ports
Chassis
Management
Stats
Autodiscovery
ITU-T compliant overhead processing, link health,
802.3 compliant RMON
Full signal hierarchy
Selectable metadata insertion
Packet field overwrite for stream ID tagging
Automated logging and reporting of all targatable
packet streams.
Automatic or manual traffic forwarding.
Statistics / Discovery
Protocol / Mapping Support
Optical Transport
Network (OTN)
Synchronous Optical
Network (SONET) /
Synchronous Digital
Hierarchy (SDH)
Ethernet
Mapping Support
OTU4, OTU3/e1/e2, OTU2/2e/1e/2f, OTU1.
Includes support for ODUflex and ODU0
OC192/STM64, OC48/STM16, OC12/STM4,
OC3/STM1
VC3/4, VCAT
Ethernet - 100G Base LR/ER/SR IEEE802.3ba
GFP/GMP/AMP/BMP (bulk filled and
concatenated)
100G Use CaseThe diagram to the right, shows the top level architecture of the CHRONOS
platform.
In this scenario, we have 2 sets of optical ports, of which 1 are active at any time,
depending on the confirmation of the unit.
Supported configurations are;
Ÿ 1 x 100G Ingress <> 1 x 100G Egress.
Ÿ 1 x 100G Ingress <> 10 x 10G Egress.
Ÿ 10 x 10G Ingress <> 1 x 100G Egress.
Ÿ 10 x 10G Ingress <> 10 x 10G Egress.
Note: Custom configurations are also available upon request.
Ingress signals can be any combination of OTN, SONET-SDH or Ethernet protocols.
Egress signals are typically Ethernet protocol, but can be modified to suit the
ingress requirements of the downstream system.
After termination, extraction and processing, the packet payload content is
switched to the relevant egress port for further processing downstream.
T : +44 (0)1383 737736
W : www.lumacron.com
Lumacron Technology
4 Pitreavie Court
Pitreavie Business Park
Dunfermline
Fife
Scotland, KY11 8UU, UK