Site-to-site dynamic virtual local area network
First Claim
1. A system for dynamically implementing a virtual LAN (VLAN), the system comprising:
- a burn rack including a burn rack monitor and a VLAN-capable switch connected to a system under test (SUT), the VLAN-capable switch connecting the SUT to a plurality of private VLANs including;
a first VLAN-capable switch;
a second VLAN-capable switch;
a plurality of first uniquely identified system under test (first SUTs) connected to the first VLAN-capable switch;
a plurality of second uniquely identified SUT (second SUTs) connected to the second VLAN-capable switch;
selected first and second SUTs dynamically connected to form a first private VLAN; and
selected remaining first and second SUTs dynamically connected to form a second private VLAN.
13 Assignments
0 Petitions
Accused Products
Abstract
A system for dynamically implementing a plurality of virtual local area networks (“VLANs”) across multiple sites is provided. The system includes a first VLAN-capable switch at a first site; a first system under test (“SUT”) connected to the first VLAN-capable switch via a first burn rack switch; a second VLAN-capable switch located at a second site remote from the first site; a second SUT connected to the second VLAN-capable switch via a second burn rack switch. The first and second VLAN-capable switches are connected such that the first and second SUTs are connected to a single virtual private network (“VPN”). The connection may include either first and second routers respectively connected to the first and second VLAN-capable switches and interconnected via a T1 line or an ATM connection. The system may also include a first VLAN-capable switch located at a first site; a first system under test (“SUT”) connected to the first VLAN-capable switch via a first burn rack switch; a second VLAN-capable switch located at a second site remote from the first site; a customer network located at a customer site remote from the first and second sites and connected to the second VLAN-capable switch via a router; and an ATM connection between the first and second VLAN-capable switches such that the first SUT and the customer network are connected to a single virtual private network (“VPN”). In this embodiment, the connection between the second site and customer site may be either an Internet connection or a high speed point-to-point connection.
-
Citations
21 Claims
-
1. A system for dynamically implementing a virtual LAN (VLAN), the system comprising:
a burn rack including a burn rack monitor and a VLAN-capable switch connected to a system under test (SUT), the VLAN-capable switch connecting the SUT to a plurality of private VLANs including; a first VLAN-capable switch; a second VLAN-capable switch; a plurality of first uniquely identified system under test (first SUTs) connected to the first VLAN-capable switch; a plurality of second uniquely identified SUT (second SUTs) connected to the second VLAN-capable switch; selected first and second SUTs dynamically connected to form a first private VLAN; and selected remaining first and second SUTs dynamically connected to form a second private VLAN. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
-
12. A method of dynamically implementing a virtual LAN (VLAN) comprising:
providing a burn rack including a burn rack monitor and a VLAN-capable switch connected to a system under test (SUT), the VLAN-capable switch connecting the SUT to a plurality of private VLANs including; providing first and second VLAN-capable switches; uniquely identifying a plurality of first systems under test (first SUTs) connected to the first VLAN-capable switch; uniquely identifying a plurality of second systems under second (second SUTs) connected to the second VLAN-capable switch; dynamically connecting selected first and second SUTs to form a first private VLAN; and dynamically connecting remaining first and second SUTs to form a second private VLAN. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21)
Specification