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HP Integrity series Manuals
Manuals and User Guides for HP Integrity series. We have
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HP Integrity series manuals available for free PDF download: Manual, Installation And Configuration Manual, Supplementary Manual
HP Integrity series Manual (105 pages)
Integrity Servers with Microsoft Windows Server 2003 and Windows Server 2008 HP Integrity Network Adapter Teaming
Brand:
HP
| Category:
Server
| Size: 2.99 MB
Table of Contents
Table of Contents
3
1 Introduction
9
Abstract
9
How to Read this Document
9
Section Layout
9
2 An Executive Overview of Teaming
11
What Is HP Integrity Network Adapter Teaming
11
The Goals of HP Integrity Network Adapter Teaming
11
Fault Tolerance: Self-Healing Network Connectivity
11
Load Balancing: RAID 5 for Server Network Adapters
12
Why HP Integrity Network Adapter Teaming
13
3 Teaming Fundamentals for the First-Time User
15
A Technical Overview of HP Integrity Network Adapter Teaming
15
Fault Tolerance: Dual Homing or Network Adapter Teaming
15
HP Integrity Network Adapter Teaming
15
Using Multi-Homing for Server Network Redundancy
16
Load Balancing: Server-Based Routing Protocol or NIC Teaming
17
Overview of Team Types
17
Using NIC Teaming for Server Network Redundancy
17
Network Fault Tolerance Only (NFT)
18
Network Fault Tolerance Only with Preference Order
18
Teaming Types and Functionality
18
Transmit Load Balancing with Fault Tolerance (TLB)
19
Transmit Load Balancing with Fault Tolerance and Preference Order
19
Switch-Assisted Load Balancing with Fault Tolerance (SLB)
19
802.3Ad Dynamic with Fault Tolerance
19
Switch-Assisted Dual Channel Load Balancing
19
802.3Ad Dynamic Dual Channel Load Balancing
20
Automatic
20
How to Choose the Best Team Type
20
How to Choose the Best Team Type
21
Basic Teaming Versus Advanced Teaming
22
Basic Versus Advanced Teaming Features
22
Basic Deployment Steps for HP Integrity Network Adapter Teaming
23
Download
23
Install
23
Dual Channel Capabilities Comparison
23
Launch
24
Overview of the HP Network Configuration Utility
24
NCU Main Page
24
Primary Actions from the NCU Main Page
24
Adapter Properties Page
25
Adapter Properties Page Tabs
25
Team Properties Page
25
Team Properties Page Tabs
25
Getting Started
26
Example Deployment of Advanced Teaming
26
Example Deployment of Basic Teaming
26
4 The Mechanics of Teaming for the Advanced User
29
Section Objectives and Prerequisites
29
Architecture of HP Integrity Networking Adapter Teaming
29
The "Networking Layers" of an Operating System
29
Teaming Software Components
30
Network Adapter Miniport Driver
30
Teaming Intermediate Driver
30
HP Network Configuration Utility
30
HP Teaming and Layer 2 Versus Layer 3 Addresses
30
Types of HP Integrity Network Adapter Teams
31
Network Fault Tolerance Only (NFT)
31
Network Addressing and Communication with NFT
32
Scenario 4-A: a Device Pings an NFT Team on the same Layer 2 Network
32
Overview of NFT Communication
32
Scenario 4-A: a Device Pings an NFT Team on the same Layer 2 Network
33
NFT Redundancy Mechanisms
34
Basic Redundancy Mechanisms
34
Team Properties Page - Settings Tab Containing the Heartbeat Settings
35
Heartbeat Frame Format
36
Q Tagged Heartbeat Frame Format
36
Advanced Redundancy Mechanisms
37
Upstream Link Failures Cause Server Isolation
38
Directed ARP Echo Node Probe REQUEST Frame Format
40
Directed ARP Echo Node Probe REPLY Frame Format
40
Community Address ARP Echo Node Probe REQUEST Frame Format
43
Community Address ARP Echo Node Probe REPLY Frame Format
43
Active Path Failover Configuration: Directed ARP
46
Active Path Failover Configuration: Community Address ARP
47
Upstream Link Failures Cause Server Isolation
49
Upstream Link Failures Cause Server Receive Bandwidth Bottleneck
50
Upstream Link Failures Add Extra Hop for Server Receive Traffic
50
Fast Path Operation Overview
52
Fast Path Configuration and Monitoring
53
Redundancy Mechanism Priority
54
Redundancy Mechanism Comparison Chart
54
Failover Events
55
NFT Network Adapter Failure Recovery
56
NFT Applications
56
Recommended Configurations for NFT Environments
57
Network Fault Tolerance Only with Preference Order
57
NFT with Preference Order Applications
57
Transmit Load Balancing with Fault Tolerance (TLB)
57
Network Addressing and Communication with TLB
58
Scenario 4-B: a Device Pings a TLB Team on the same Layer 2 Network
58
Overview of TLB Communication
58
Scenario 4-B: a Device Pings a TLB Team on the same Layer 2 Network
59
Transmit Load Balancing Methods (Algorithms)
60
TLB Automatic Method
61
Transmit Load Balancing Method Configuration
61
Transmit Load Balancing Method Comparison
61
TLB TCP Connection Method
62
TLB Destination IP Address Method
62
Load Balancing Based on Destination IP Address (Two- and Three-Port Teams)
62
Load Balancing Based on Destination IP Address (Four- and Five-Port Teams)
62
TLB Destination MAC Address Method
64
Scenario 4-C: TLB Team Using IP Address for Load Balancing Algorithm
64
Load Balancing Based on Destination MAC Address (Two- and Three-Port Teams)
64
Load Balancing Based on Destination MAC Address (Four- and Five-Port Teams)
65
TLB Round Robin Method for Outbound Load Balancing
66
Scenario 4-D: TLB Team Using MAC Address for Load-Balancing Algorithm
66
TLB Redundancy Mechanisms
67
TLB Network Adapter Failure Recovery
67
TLB Applications
67
Recommended Configurations for TLB Environments
67
Transmit Load Balancing with Fault Tolerance and Preference Order
68
Transmit Load Balancing with Fault Tolerance and Preference Order Applications
68
Switch-Assisted Load Balancing with Fault Tolerance (SLB)
68
Network Addressing and Communication with SLB
69
SLB Outbound Load-Balancing Algorithms
69
SLB Inbound Load-Balancing Algorithm
69
Overview of SLB Communication
69
Cisco Etherchannel
70
Example of Load-Balancing Algorithms #1
70
Example of Load-Balancing Algorithms #2
70
Switch Vendor Port Trunking Technology Supported by SLB
71
SLB Redundancy Mechanisms
72
SLB Network Adapter Failure Recovery
72
SLB Applications
72
Recommended Configurations for SLB Environments
72
802.3Ad Dynamic with Fault Tolerance
73
Switch-Assisted Dual Channel Load Balancing
73
TLB Does Not Provide Receive Load Balancing
74
SLB Does Not Provide Switch Redundancy
74
Dual Channel & Dynamic Dual Channel Provide Full Load Balancing and Switch Redundancy
75
Dual Channel/Dynamic Dual Channel Capabilities Comparison to Other Team Types
75
Dual Channel Configuration
76
Overview of Dual Channel Communication
76
Dual Channel Transmit Balancing Algorithm
77
Dual Channel Receive Load-Balancing Algorithm
77
Receive Load Balancing on a Per-Port Trunk Basis
77
Receive Load Balancing on Multiple Trunks
77
Dual Channel Configuration
77
Dual Channel Redundancy Mechanisms
78
Advanced Redundancy Mechanisms
78
Basic Redundancy Mechanisms
78
Dual Channel Network Adapter Failure Recovery
78
Dual Channel Applications
78
Recommended Configurations for Dual Channel Environments
78
802.3Ad Dynamic Dual Channel Configuration
79
802.3Ad Dynamic Dual Channel Load Balancing
79
Automatic
79
Team Types and Redundancy Mechanisms Interoperation
80
Mechanism Priority
80
Team Type and Redundancy Mechanisms Compatibility Chart
80
Team Type and Redundancy Mechanism Compatibility
80
Active Path and Fast Path Disagree on Primary Teamed Port
81
Team Status and Icons
82
Network Adapter Teamed Status
82
Mechanisms Priority Configuration: Fast Path Prioritized Higher than Active Path
82
Teamed Port Information Tab
83
Team State
84
Team Icons
84
Team State Icons
84
HP Integrity Network Adapter Teaming and Advanced Networking Features
85
802.1P Qos Tagging
85
Checksum Offloading
85
Large Send Offload (LSO)
85
Maximum Frame Size (Jumbo Frames)
85
Q Virtual Local Area Networks (VLAN)
86
VLAN Tagging Used with HP Integrity Network Adapter Teaming
86
HP Integrity Network Adapter Teaming Configuration and Deployment with Integrity Essentials Rapid Deployment Pack (RDP)
87
5 Teaming Feature Matrix
89
A - Overview of Network Addressing and Communication
91
Layer 2 Versus Layer 3
91
Address - Unicast Versus Broadcast Versus Multicast
91
Example Scenarios of Network Addressing and Communication
91
Scenario A-1: One Device Pings Another on the same Layer 2 Network
92
Scenario A-2: One Device Pings Another on a Different Layer 2 Network
93
B - Frequently Asked Questions
97
C - Overview of Utilities Included with HP Integrity Network Adapter Teaming
101
D - Glossary
103
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HP Integrity series Manual (35 pages)
Integrity Servers with Microsoft Windows Server 2003 and Windows Server 2008 Kernel Debugging Guide
Brand:
HP
| Category:
Server
| Size: 0.86 MB
Table of Contents
Table of Contents
3
About this Document
7
Intended Audience
7
New and Changed Information in this Edition
7
Document Organization
7
Typographic Conventions
7
Related Information
8
Publishing History
8
HP Encourages Your Comments
8
1 Debugging the Kernel Locally
9
Overview
9
Kernel Debugging Setup Options
9
Setting up the Host Machine
10
Install Debugging Tools for Windows
10
Building a Converter for Your Cable
11
Build a 5X2-To-DB9M Converter (Rx1620)
11
Build a RJ45-To-DB9F Converter (Rx5670, Rx7620, Rx8620, and Superdome/Sx1000)
12
Rx1620 Debug Port (Male Pins on System Board)
12
Required Plug Ends and Internal Wiring
12
DB9 Male Pin-Out to 5X2 Female
12
Setting up and Connecting to the Target Machine
13
Computer Pin-Outs for HP Integrity Rx7620 and Rx8620 Servers
13
Computer Pin-Outs for HP Integrity Superdome/Sx1000 Servers
13
Computer Pin-Outs or HP Integrity Rx5670 Servers
13
Change the Boot Configuration (Applies to All Servers)
14
Windows Server 2003 Systems Only Option 1: Using Bootcfg (Recommended)
14
Windows Server 2003 Systems Only Option 2: Using Nvrboot
17
Windows Server 2008 Systems Only Using Bcdedit
18
Bl860C and Bl870C Servers
19
Bl860C/Bl870C Debugging Port
19
Rx1620 Server
19
Rx1620 Debugging Port
20
Rx2600 and Rx2620 Debugging Port
20
Rx2600 and Rx2620 Servers
20
Rx2660 Servers
20
Rx2660 Debugging Port
21
Rx3600 and Rx6600 Debugging Port
21
Rx3600 and Rx6600 Servers
21
Rx4640 Server
21
Location of Three Jumpers on Rx4640 Motherboard
22
Rx4640 Debugging Port
22
Rx5670 Server
22
Rx7620, Rx8620, and Superdome/Sx1000 Servers
23
Locate the Debug Port
23
Option 1: Identifying the Core Cell Using an EFI Command (Recommended)
23
Rx5670 Debugging Port
23
Copy the KD Utility to the EFI System Partition (Applies to Rx7620 and Rx8620 Servers Only)
24
Enable the Debugging Port (Applies to Rx7620 and Rx8620 Servers Only)
24
Option 2: Identifying the Core Cell Using an Npartition Command
24
Connect to the Debug Port
25
Debugging Port on the Rx8620
25
Debugging Port on Superdome/Sx1000
26
2 Debugging the Kernel Remotely
27
Overview
27
Setting up the Host Machine
27
Install Debugging Tools for Windows
28
Setting up and Connecting to the Target Machine
29
Change the Boot Configuration
29
Windows Server 2003 Systems Only Option 1: Using Bootcfg (Recommended)
29
Windows Server 2003 Systems Only Option 2: Using Nvrboot
32
Windows Server 2008 Systems Only Using Bcdedit
33
Enable IPMI LAN Access and the Debugging Option
34
Connect with the Target Machine and Initiate Debugging
34
HP Integrity series Installation And Configuration Manual (32 pages)
Integrity Servers with Microsoft Windows Server 2003 Cluster Installation and Configuration Guide
Brand:
HP
| Category:
Server
| Size: 0.62 MB
Table of Contents
Table of Contents
3
About this Document
9
Intended Audience
9
New and Changed Information in this Edition
9
Document Organization
9
Typographic Conventions
9
Related Information
10
Publishing History
10
HP Encourages Your Comments
10
1 Introduction
11
Clustering Overview
11
Server Cluster Versus Network Load Balancing
12
Server Cluster
13
Nlb
13
Cluster Terminology
14
Nodes
14
Cluster Service
14
Shared Disks
14
Resources
14
NLB Example
14
Resource Dependencies
15
Groups
15
Quorums
15
Single Quorum
16
Single Quorum Example
16
Majority Node Set (MNS) Quorum
17
MNS Quorum Example
17
Heartbeats
18
Virtual Servers
18
Failover
18
Failback
19
2 Administering the Cluster
21
Verifying Minimum System Requirements
21
Gathering Required Installation Information
22
Example Cluster Hardware Cabling Scheme
22
Creating and Configuring the Cluster
24
Configuring the Public and Private Networks
25
Private Network
25
Public Networks
26
NIC Teaming
27
Preparing Node 1 for Clustering
27
Configuring the Shared Storage
27
Preparing Node 2+ for Clustering
28
Creating the Cluster
29
Joining Node 2+ to the Cluster
29
Configuring Private and Public Network Role and Priority Settings
30
Validating Cluster Operation
31
Method 1: Simulate a Failover
31
Method 2: Run the Cluster Diagnostics and Verification Tool
31
Upgrading Individual Nodes
31
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HP Integrity series Supplementary Manual (17 pages)
Recovering Windows Server 2003 on HP Integrity Servers
Brand:
HP
| Category:
Server
| Size: 0.24 MB
Table of Contents
Table of Contents
1
Overview
2
Faq
3
Last Known Good Configuration
4
Safe Mode
5
Add Safe Mode to the EFI Boot Option Menu
6
Recovery Console
8
Launch from the Microsoft Windows Server 2003 CD
8
Launch from the HP Reinstallation DVD
9
Recovery Console Commands
10
Setup Repair and Parallel Installation
12
Automatic System Recovery
14
Back up an ASR Set
14
Recover from an ASR Set
15
Resqme
16
For more Information
17
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