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Unisys and Microsoft SQL Server 2005 Speed Up the ProcessUnisys and Microsoft have dispelled the perception that for high performance ETL, the only alternative is a UNIX-based solution. With SQL Server 2005 Integration Services, Microsoft and Unisys deliver an optimized ETL solution that will support even the most demanding enterprise Business Intelligence (BI) initiatives. They conducted a series of real ETL (Extraction, Transformation and Load) tests with Microsoft SQL Server 2005 Integration Services (SSIS, formerly known as DTS). Performance tests compared throughput, scalability and performance on both 32- and 64-bit processor configurations on a Unisys ES7000. SSIS demonstrated parallelism and the ability to utilize all available CPUs in multiple aggregation, parallel lookup and transformation testing.
The testing extracted, transformed and loaded more than 1.2 billion sales and marketing order line items into a data warehouse in less than an hour. It processed one billion lookups over a dimension table with 100 million rows in just over 24 minutes, or about 683,000 lookups/second. Integration Services on a 16-processor Unisys ES7000 processed 16 parallel transformation workloads amounting to 14.84 GB of raw data in 8 minutes, a rate of 1.86 GB/minute.
The test results documented in this paper prove that Microsoft SSIS running on an ES7000 server can take advantage of parallelism and multiple processors to deliver the extremely high rates of transformation throughput. Through collaborative benchmark testing and engineering, Unisys and Microsoft mitigate implementation risk by validating optimal performance and establishing best practices in system sizing and configuration to achieve high performance levels.
Download pdf Unisys and Microsoft SQL Server 2005 Speed UpKawasaki SuzukiKAWASAKI. Mule. SUZUKI. Q.U.V.. BED LIFT KIT. HARDWARE. KIT NUMBER:. 50-0064. CUSTOMER MUST RECEIVE A COPY OF THIS. INSTALLATION MANUAL AT TIME OF SALE..
Download PDFProgrammable Telemetry Transmitter Instruction DataThe RFL 98 TMX (Fig. 1) is a programmable telemetry transmitting module, capable of operating within wide input and output parameter ranges. It uses Digital Signal Processing (DSP) techniques to produce telemetry signals, having greater stability than conventional analog telemetry devices. The operating characteristics of the RFL 98 TMX can be changed by using the RFL 9800 Programmer/Calibrator, which plugs into a dedicated connector on the front of the module. RFL 98 TMX modules are designed for use in anRFL 9800 Series chassis. Each module requires five horizontal units (5E) of chassis space. Power and data connections are made through an RFL 98 DATA I/O 19-point I/O module, which is installed in the chassis directly behind the module.
INSTALLATION
Before the RFL 98 TMX can be placed in service, it must be installed in a chassis. Installation involves inserting an RFL 98 DATA I/O module into the rear of the chassis, connecting all signal and power wiring to the I/O module, checking the settings of all jumpers, and inserting the module into the front of the chassis. Wiring assignments for the RFL 98 DATA I/O module 6. are given in Figure 2. Figure 3 shows the location of all controls and indicators used during installation and operation of the RFL 98 TMX; these controls and indicators are described in Table 2.
Get pdf Programmable Telemetry Transmitter Instruction DataFORD C-6 COMPETITION MANUAL VALVE BODY REVERSE PATTERNFORD C-6 COMPETITION MANUAL VALVE BODY. REVERSE PATTERN (Sharp 62010). The C-6 competition valve body is designed to replace perfectly without alteration
Download PDFIOLAN DS1/TS2 Users ManualIOLAN Family Models IOLAN Features Hardware Software Accessing the IOLAN General Features Security Chapter 2 Hardware and Connectivity Introduction IOLAN Components What’s Included What You Need to Supply Available Accessories IOLAN DS1/TS2 User’s Guide, Version 3.3 Power Supply Specifications Desktop Models Serial Only Models I/O Models Getting to Know Your IOLAN Overview DS1 TS2 I/O Top View End View Console/Serial Switch Console Mode Serial Mode Powering Up the IOLAN Serial Only Models I/O Models Chapter 3 Configuration Methods Introduction Configuration Methods
Overview Configures an IP Address Requires a Configured IP Address Easy Config Wizard DeviceManager Overview Access Platforms Unique Features Connecting to an IOLAN Using DeviceManager Using DeviceManager IOLAN DS1/TS2 User’s Guide, Version 3.3 WebManager Overview Access Platforms Unique Features Connecting to an IOLAN Using WebManager Using WebManager Command Line Interface Overview Access Platforms Unique Features Connecting to an IOLAN Using the CLI Through the Network Through the Serial Port Using the CLI Menu Overview Access Platforms Unique Features Connecting to the IOLAN Using the Menu Using the Menu DHCP/BOOTP Overview Unique Features Connecting to the IOLAN Using DHCP/BOOTP Using DHCP/BOOTP DHCP/BOOTP Parameters SNMP Overview Access Platforms Unique Features Connecting to an IOLAN Using SNMP Using the SNMP MIB Chapter 4 Getting Started Introduction Easy Configuration Wizard Setting Up the Network Using DeviceManager Using WebManager Using a Direct Serial Connection to Specify an IP Address Using a Direct Serial Connection to Enable BOOTP/DHCP Using ARP-Ping For an IPv6 Network Setting Up the Serial Port(s) Setting Up Users ChapterSetting Up Mac Mail TutorialTechnical Manual:Configuration and Setup Setting Up a POP3 or IMAP Email Account 1.Select Mail /Preferences. 2.Click the Accounts button,located at the top of the window. 3.To add a new account,click the plus (+)button,located in the bottom left corner of the window. 4.Click the Account Type drop-down menu,and then choose one of the following: ” To use a POP server,select POP. ” To use an IMAP server,select IMAP. 5.Enter the following information: ” Description Enter a descriptive name for the account. ” Email Address Enter your entire email address (e.g., myname@mydomain.com ),using all lowercase letters. ” Full Name Enter your first and last name.
This is the name that will appear in the From field of messages you send. ” Incoming Mail Server Choose one of the following: ” If you selected POP in step 4,above,enter the POP server name:pop.emailsrvr.com ” If you selected IMAP in step 4,above,enter the IMAP server name:imap.emailsrvr.com ” User Name Enter your entire email address ((e.g., myname@mydomain.com ),using all lowercase letters. ” Password Enter the password for your email account. 6.Click the Outgoing Mail Server (SMTP)drop-down menu,and select Add Server.(Note:You may have difficulty sending mail if you have more than one SMTP server listed in the Outgoing Mail Server (SMTP)drop-down menu.To delete unnecessary servers,select Edit Server List from the drop-down menu.) 7.In the Outgoing Mail Server box,enter the outgoing (SMTP) server:smtp.emailsrvr.com 8.Replace the default Server port 25 with the alternate port 587 . 9.Click the Authentication drop-down menu and selectUsing Microsoft Visual Studio .NETIf you wish to do your assignments on a PC, you will need either Windows 2000, XP, or
Vista and Microsoft Visual Studio 2005. Note that Windows 98 or Me are not able to run Visual Studio 2005. You should be familiar with the Windows operating system and PCs in general, and be willing and able to figure out the Visual Studio 2005 environment.
The emphasis in class will be on general programming concepts, not on the workings of Visual Studio (often referred to as just VS), and the code you write will be virtually identical to code written by students using a Macintosh.
Note that currently the cluster and Lair (the Tressider computer cluster) computers do not have VS 2005 installed. They have VS 2003, but it does not have our libraries. We are hoping that we will have this fixed soon. We will make an announcement on the course website when we have a version of VS on the Stanford computers with our libraries
Getting Started
In order to use your PC to write the programs for the class, you will need to install both a compiler and the special 106 libraries for your system.
Step #1: Getting and installing the Microsoft Visual Studio 2005 compiler
For CS106X, we are using Microsoft’s Visual Studio 2005 compiler. To install VS, you will download disk images of the installer CDs, burn them to physical CDs, and then use those to install the program. The easy way to do this is to go to http://msdn-ee.stanford.edu/VisStud2005.html and click onSource Code Exploration with GoogleThe paper presents a new approach to source code exploration, which is the result of integrating the Google Desktop Search (GDS) engine into the Eclipse development environment. The resulting search engine, named Google Eclipse Search (GES), provides improved searching in Eclipse software projects.
The paper advocates for a component-based approach that allows us to develop strong tools, which support various maintenance tasks, by leveraging the strengths of existing frameworks and components. The development effort for such tools is reduced, while customization and flexibility, to fully support user needs, is maintained. GES allows developers to search software projects in a manner similar to searching the internet or their own desktops. The proposed approach takes advantages of the power of GDS for quick and accurate searching and of Eclipse’s extensibility. The paper discusses usage scenarios, advantages, limitations, and possible extensions of the proposed tandem.
During software evolution most activities require the users to understand large and often new parts of a software system. Most of the time, the developers rely on the source code and the available documentation alone to achieve this understanding. In this context, source code searching and browsing are two of the most common activities undertaken by developers [4]. These activities directly support such tasks as concept location in source code, impact analysis, change propagation, debugging, and comprehension of software in general. Given their widespread use, we need to support them with fast and accurate tools and techniques.
Traditionally, most developers were (and still are) using grep (global regular expression print) forKODAK PROFESSIONAL ML-500 Digital Photo Print System User's GuideML-500 Digital Photo Print System Workflow
Client Systems
These systems represent client systems in the ML-500 workflow. They are networked to the server that is connected to the ML-500 printer. If you will be using the ML-500 WINDOWS printer driver to print, the driver must be installed on the clients.
Server Systems
The system connected to the ML-500 printer is considered the server. The ML-500 Printer Utilities are installed on this system. If you will be using the ML-500 WINDOWS driver to print, the port monitor and the printer driver(s) must be installed on the server before installing the printer drivers on the client systems.
System Requirements (ML-500 Utilities)
- 800 MHz PENTIUM III processor with minimum 512 MB of memory
- WINDOWS 2000 Professional (Service Pack 2, or latest), WINDOWS 2000 Server (Service Pack 2, or latest) with Services for MACINTOSH installed, WINDOWS 2000 Advanced Server (Service Pack 2, or latest) with Services for MACINTOSH installed, or WINDOWS XP Operating Systems
- Color monitor with an 800 x 600 pixel resolution
- OHCI compliant IEEE 1394 card and IEEE 1394 cable for connecting to printer included
- A minimum of 10 GB available storage on hard drive
Installing the ML-500 Utilities
If you are installing the ML-500 Utilities for the first time, use the KODAK PROFESSIONAL ML-500 Digital Photo Print System CD (see page 3) that was included with your ML-500 system.
Download pdf KODAK PROFESSIONAL ML-500 Digital Photo Print System User's GuideWeb 2.0: The New Face of the WebPrior to 2001, web sites were relatively static, designed to push information to users in a manner that was not interactive. But proving that adversity can be the path to enlightenment, following the dot-com crash in late 2001 a new, stronger Web emerged. And unlike its predecessor, the new Web lived up to its name – sites became sticky hubs of interactive content, constantly changing and morphing based on the wants and needs of its visitors. Today, the technology that enables Web 2.0 is merely the vehicle, the transport mechanism from point A to point B. It is the user – those members of the particular web community – who ultimately drives the destination.
Unfortunately, malicious software (malware) has also evolved. And just as technology has been replaced by users as the driving force behind web sites, the computer is no longer the ultimate target of the malware – it is the user that is the target. Today, malware is almost single-purposed: to gain access to the user’s private, financial, and confidential information. To gain that access, malware authors exploit the very thing that makes Web 2.0 so successful – the user’s trust.
Modern Web sites bear little resemblance to their predecessors. Today’s websites feature dynamically changing content delivered through a steady stream of user contributions, RSS feeds and third-party advertising. Commerce is increasingly the goal, with a large portion of active sites engaged in affiliate relationships, direct sales, or some other form of monetary gain.
Not only is the face of the
