Matisse Networks Announces vMETRO for
Virtualization of Metro Networks
Matisse EtherBurst First to Extend Virtualization Between
Datacenters
Las Vegas, Nevada, Interop Booth #1967, April 29, 2008—Matisse
Networks is today introducing virtualization of metropolitan
optical networks with a suite of new features collectively known
as vMETRO(TM).
vMETRO is a collection of capabilities purpose-built to enable
the virtualization of IT resources across distributed
datacenters and campus networks. For the first time, vMETRO
allows enterprises to cost-effectively implement metro-wide
application agility to scale business-critical IT infrastructure
beyond the physical power, space, and cooling limitations of a
single site, enabling:
• Metro-wide datacenter capacity pooling
• Improved IT resource utilization
• Scalable metro network infrastructure
“We are on the brink of advancing from the current era of
virtualizing individual servers to true datacenter automation,”
said Mark Bowker, Analyst, Enterprise Strategy Group. “Next
generation virtualization capabilities that dynamically
provision resources such as storage logical unit numbers (LUN)
over distributed arrays or migrate live compute instances
between buildings with tools like VMware’s VMotion become
possible when an enterprise has a high-capacity, low-latency
interconnect such as Matisse Network’s EtherBurst.”
EtherBurst(TM) is the first system fully integrating Ethernet
and optical technologies. EtherBurst offers the operational
simplicity and universal interoperability associated with
Ethernet while providing the bandwidth and scalability of wave
division multiplexing (WDM) optics. The new vMETRO capabilities
make EtherBurst ideally suited to help enterprises grow their
metro networks to interconnect distributed datacenters and
campus local area networks (LAN).
“Server and storage virtualization have improved resource
utilization and simplified data center management while
increasing responsiveness,” said Michael Kennedy, President,
Network Strategy Partners. “Circuit WDM systems, however, have
been a barrier to extending the benefits of virtualization
across the metro optical network. Matisse’s vMETRO enables
virtualization of both Ethernet switching and optical
transponders so that servers, storage and bandwidth resources
may be efficiently shared across the metro area.”
vMETRO Components
vMETRO includes a number of distinct components, each available
exclusively from Matisse:
• Virtualized Metro Switching (vmSwitchingTM)
Matisse’s vmSwitching capability, now integrated into EtherBurst,
makes it possible for an entire network of EtherBurst systems to
operate as a single distributed Layer 2 Ethernet switch. High
bandwidth and low-latency switching ensures the highest levels
of application performance, even if server and storage resources
are physically located in different datacenters.
Since vmSwitching makes the metro network of EtherBurst nodes
manageable as a single entity, the entire metro network now
becomes as easy to manage as any Ethernet switch within the
datacenter. IT personnel can use existing LAN management tools
to configure and operate a metro-wide virtual network as used
today to manage a virtualized network within a single
datacenter.
Unlike circuit WDM systems which require specialized optical
engineering expertise to design, deploy, and maintain the Layer
1 network, EtherBurst is managed and configured easily by anyone
familiar with configuring Layer 2 Ethernet switches and standard
Simple Network Management Protocol (SNMP).
• Optical VLANs
Optical VLANs control the logical grouping of virtualized IT
resources throughout a metro region. Now applications, servers
and storage devices from any number of sites can all be
interconnected simultaneously to enable resource grouping and
virtualization spanning multiple datacenters.
Conventional circuit based WDM systems only provide
point-to-point circuit connectivity and require the ongoing
management of a separate Layer 1 network. In contrast, optical
VLANs are managed using standard VLAN management interfaces,
enabling end-to-end Layer 2 networking of distributed resources.
• Metro-Wide Quality of Service (mQOSTM)
Matisse’s mQOS delivers dynamic bandwidth reallocation, shifting
bandwidth in real-time between applications and between sites
while ensuring higher priority applications receive all
resources necessary for optimal operation. EtherBurst
dynamically responds to changing traffic patterns to deliver
bandwidth to the highest priority users and applications
anywhere across the metro optical network.
“vMETRO now makes it possible to interconnect distributed
resources as if they were all within a single facility,” said
Timon Sloane, VP of Marketing for Matisse Networks. “Any
combination of applications, servers and storage subsystems that
can be networked together within a single datacenter can now be
interconnected with the same ease and performance across a metro
region using the Matisse EtherBurst distributed switch.”
Live vMETRO Demonstration at Interop
The first live public demonstration of an operational EtherBurst
distributed switch with vMETRO capabilities will be held during
the Interop 2008 show in booth #1967 at the Mandalay Bay
Convention Center, April 29 through May 1, 2008.
Availability
The vMETRO suite of features is included in Matisse Networks’
EtherBurst 2.0 software release available immediately.
About Matisse Networks
Matisse Networks is named after Henri Matisse, the famous
painter known as the “Master of Color.” Like the painter,
Matisse Networks is mastering the colors of light to pioneer the
field of optical burst technology. Matisse Networks’ EtherBurst
Packet WDM System is purpose-built for carrier and enterprise
metro Ethernet optical transport networks, saving 50% of capital
and operational expenses compared with legacy optical circuit
systems. EtherBurst maximizes utilization of optical bandwidth
and increases packet service flexibility at the lowest total
cost of ownership.
Matisse Networks, EtherBurst, mQOS, vMETRO and vmSwitching are
trademarks of Matisse Networks, Inc. VMware and VMotion are
trademarks VMware, Inc.
