Dell Precision R5400 Remote Access Device: Networking Considerations
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- Dell Precision R5400 | Remote Access Device: Networking
Considerations - Page 1
issues such as poor responsiveness, lack of media or graphics support, OS image management challenges and peripheral interoperability. PC-over-IP throughout the enterprise. Teradici has developed breakthrough innovations in computer display, USB, and audio remoting to deliver a true PC experience - Dell Precision R5400 | Remote Access Device: Networking
Considerations - Page 2
chassis -> datacenter switch links ...9 Rack workstations -> rack workstation switch links 10 Rack workstation switch -> datacenter switch links 10 Example Bandwidth Determination per User Category 8 Table 4: TCP and UDP Ports Required for a PC-over-IP System 12 TER0806005 Issue 1 2 - Dell Precision R5400 | Remote Access Device: Networking
Considerations - Page 3
. Figure 1: PCoIP System Overview Data Center Enterprise Network Blade Workstations Blade PC's Blade Servers Desktops Dual Display Quad Display Rack Workstations Rack Servers Tower Workstations Tower Servers Integrated Display Integrated IP Phone Mobility PCoIP Host Processor The PCoIP Host - Dell Precision R5400 | Remote Access Device: Networking
Considerations - Page 4
-scale PCoIP system deployments where high utilization and fair distribution of • A fully lossless display when static. • support, up to and including 5.1 channel surround sound. • End-to-end security via wire-speed AES encryption on all data traffic between the host and portal. • No drivers - Dell Precision R5400 | Remote Access Device: Networking
Considerations - Page 5
with IPSEC using wire-speed, hardware accelerated 128-bit a static display requires virtually no downstream metering and supports a hard Rack Workstations IP SAN/NAS User Data User Profiles User Network User Desktops Desktop Portal Datacenter Servers Active Directory DNS/ DHCP Connection - Dell Precision R5400 | Remote Access Device: Networking
Considerations - Page 6
doing an operation which requires high imaging bandwidth (dragging windows display (Table 1). 2. Determine the per-user bandwidth allocation for each user type (see Table 3). 3. Determine the number The planning bandwidth includes requirements for all traffic types, including display image, USB, - Dell Precision R5400 | Remote Access Device: Networking
Considerations - Page 7
the user's display, large screen change results in a burst of network traffic. The peak is defined by the display resolution and the number of pixels changing the peak bandwidth. Segment the User Base PCoIP network requirements are highly dependant on the usage scenario, ranging from plain text - Dell Precision R5400 | Remote Access Device: Networking
Considerations - Page 8
connection display 1680x1050 (wide screen) 60 Mbps Planning Bandwidth (Table 2) 1 The task worker planning bandwidth estimates, in contrast to the estimates for the other user categories, do not include an allocation for audio streams. If the IT administrator determines audio allocation is required - Dell Precision R5400 | Remote Access Device: Networking
Considerations - Page 9
24 port 10/100/1000 switch is mounted on the rack 2 redundant switches with at least 18 Gigabit Ethernet ports Each datacenter switch would use 13 ports to Blade PC and rack workstation chassis', 1 port for switch setup and failover communication, and 4 ports to User Network. More ports as required - Dell Precision R5400 | Remote Access Device: Networking
Considerations - Page 10
, to allow for setup and failover communication • 12 Gigabit Ethernet ports to the blade chassis • 1 Gigabit Ethernet port to the workstation rack • 4 Gigabit Ethernet ports to the workgroup switches • Plus a number of ports for other server and internet connections VLAN and QoS Considerations - Dell Precision R5400 | Remote Access Device: Networking
Considerations - Page 11
IT administrators will encounter a number of items which need special in either direction. Keyboard and mouse USB traffic requires significantly less than 1Mbps. USB traffic is not help mitigate the impact of high latency links to deliver an support NAT, PC-over-IP® traffic can be tunneled - Dell Precision R5400 | Remote Access Device: Networking
Considerations - Page 12
to pass through a firewall, the firewall must be configured to support IPSEC traffic and also have the ports in Table 4 opened. Table 4: TCP and UDP Ports Required for a PC-over-IP System Port TCP Ports UDP Ports Optional TCP port Port Number 21, 51, 80, 427, 443, 8000, 50000, 50001 53, 67 - Dell Precision R5400 | Remote Access Device: Networking
Considerations - Page 13
of the date of publication. Because Teradici must respond to changing market conditions, it should not be interpreted to be a commitment on the part of Teradici, and Teradici cannot guarantee the accuracy of any information presented after the date of publication. This document is for informational
TER0806005 Issue 1
1
Teradici Corporation
#500-4400 Dominion St. Burnaby, B.C. V5G 4G3 Canada
p+1 604 451 5800 f+1 604 451 5818
www.teradici.com
A Teradici
®
White Paper
PC-over-IP
®
Technology on Enterprise Networks
Network Considerations for Large-scale Deployment
PC-over-IP (PCoIP
®
) technology is an innovative technology that solves remoting issues such as poor
responsiveness, lack of media or graphics support, OS image management challenges and peripheral
interoperability. PC-over-IP technology will change the desktop computing model by enabling desktop
consolidation benefits to be realized throughout the enterprise.
Teradici has developed breakthrough innovations in computer display, USB, and audio remoting to deliver a
true PC experience over standard IP networks from the datacenter to the user’s desk. As such, PCoIP
technology enables a rich user experience not found in other remoting solutions or traditional thin clients. As
with any desktop consolidation solution, PCoIP technology is dependent upon the network performance
between the user and the centralized host computer.
Unlike other solutions, however, Teradici’s PCoIP
technology has been architected to optimize the transfer of user interface data and enables the full-fidelity user
experience that users have come to expect from traditional desktop PCs. Incorporated within this technology
are algorithms which dynamically adapt the levels of compression to maximize the user experience. These and
other advanced features simplify the roll-out and management of PCoIP systems, whether small installations or
large scale enterprise-wide deployment scenarios.
This paper introduces PCoIP technology and discusses LAN and campus network considerations for enabling
large scale desktop consolidation while maintaining a true PC experience for users.