Saturday, March 31, 2012

Computer performance & Clock speed


Many people use clock speed as a measure of a computer’s total computing power, but that term can be very misleading for a couple of reasons.

The computer keeps all its devices synchronized by using its clock. This isn’t a regular clock—it’s a “clock in a chip,” which keeps highly accurate time and ticks much more rapidly than a wall clock. The faster the computer’s clock ticks, the more quickly the device can move on to a new task. The central processing unit  needs a certain number of clock ticks to  execute each of its instructions. Therefore, the faster the clock ticks (that is, the “clock speed”), the more instructions the CPU can execute per second.

 However, that’s not the end of the story. Different processors use different instruction sets, each of which can require a different number of ticks. That means different kinds of processors may execute different numbers of instructions per second, even if they have the same clock speed. You can use clock rate to compare two of the same kinds of processor (for example, a 2.93-gigahertz (GHz) Intel Pentium 4 and a 3.0-GHz Intel Pentium 4) but not as an accurate comparison between two processors of different types (for example, a 3.0-GHz Intel Pentium 4 and a 3.0-GHz AMD Athlon II).

Even if you could fgure out which processor executes more instructions per second, that figure alone doesn’t necessarily tell you which computer will be faster for your program. Many programs - most, in fact—are limited by factors other than sheer processor speed, including amount and speed of memory, disk space, network speed, graphics or floating-point processor speeds, and bus speed.

Many modern computers have multiple processors or multiple cores (execution areas within a processor), so they can perform more than one task at the same time. Whether the computer gets a significant beneft from multiple cores depends on whether the tasks it is performing can be easily split into separate pieces—and whether the program was written to take advantage of multi-core hardware. Many programs are limited by disk drive speed. Disk drives spin at anywhere from 3,000 RPM to 15,000 RPM (speeds between 4,200 RPM and 7,200 RPM are most typical), so the time it takes to read and write data can vary dramatically.

Which of these factors is most important for your application depends on what that application does. If your program uses a local database heavily, disk speed will be a big factor. If the database is on a remote server, then the speed of the server and the network’s speed are probably bigger performance factors for your application than the speed of your local CPU.

To get an idea of how well the program will run ahead of time, focus on the system’s overall performance, running a wide variety of tests rather than looking just at clock speed. To look at one set of tests in the most recent versions of Microsoft Windows, open the computer’s Start menu, right-click the Computer entry, and select Properties to see the basic information display shown in Figure:




To get more detail, click the Windows Experience Index link to see the display shown in Figure below. This display shows performance scores for several different system features.



By given figure, we can see that the graphics scores are the lowest, so this system may not give the best performance for high-end graphics programs, such as three-dimensional games. But the processor, RAM, and disk scores are higher, so this computer may be just fine for applications that are not graphics-intensive.The Windows Experience Index still doesn’t consider your program’s particular needs. For  example, it doesn’t know what kinds of instructions your program will perform the most (such as integer calculations, foating-point calculations, string operations, and so on) and it doesn’t consider network bandwidth, but at least it provides a reasonably consistent value that can help you compare different systems.





Friday, March 30, 2012

Laptops vs Notebooks vs Netbooks vs Tablets


A laptop is a computer that is intended to run anywhere as it is portable. Laptops have integrated screens and keyboards and run on batteries. Heavy use to some hardware such as GPU, DVD drives can quickly drain the batteries. Laptops have a touchpad, pointing stick, trackball, or other pointing device. Nowadays, we can add external devices like mouse, keyboard etc.

Notebooks are stripped-down laptops. They are thin and have relatively small screens and are ultra-light. They rarely have CD-ROM or DVD and also have very limited graphics capabilities. As notebooks doesn’t have external media (DVD, etc), they typically have integrated network connection hardware so one can load software on to them. Network hardware can be used to access the internet.

Netbooks are even more stripped down than notebooks. They typically have less powerful processors and are primarily used for networked applications as web browsers, where most of the processing happens on a remote server.

A tablet is similar to laptop that uses touch screen or stylus as its primary input device. Tablets may display virtual keyboards on their screens and may use handwriting recognition for text input.Lap

Sunday, March 4, 2012

WPF: Significance of x:Key attribute


Each object declared as resource must set x:Key property. This property will be used by another elements to access the resource. But for Style objects, there is an exception. Style objects that set the TargetType property do not need to set x:Key explicitly because it is set implicitly behind the scenes.

Scenario1: When x:Key is defined
<Style x:Key="myStyle" TargetType="Button">
      <Setter Property="Background" Value="Yellow"/>
</Style>
In above example, x:Key property is used, so, style will be visible on Button, only when Style property is used explicitly on element, as shown in below snippet:
<Button Style="{StaticResource myStyle}" Width="60" Height="30" />

Scenario2:When x:Key is not defined
<Style TargetType="Button">
    <Setter Property="Background" Value="Yellow"/>
</Style>
In above example, style will be applied by default on all the buttons (due to TargetType) as no x:Key is defined in Style resource. Code for the button is shown below:
<Button Name="btnShow" Width="60" Height="30" />

Saturday, March 3, 2012

WPF: StaticResource vs DynamicResource


Logical resources allow you to define objects in XAML, which are not part of visual tree but can be used in your user interface. One of the examples of logical resource is Brush, which is used to provide a color scheme. Generally those objects are defined as resource, which are used by multiple elements of the applications.

   <Window.Resources>
        <RadialGradientBrush x:Key="myGradientBrush">
            <GradientStop Color="Green" Offset="0"/>
            <GradientStop Color="Blue" Offset="2"/>
        </RadialGradientBrush>      
    </Window.Resources>

Now, above declared resource could be used as either static or dynamic resource. One point to remember is that, when using static resources, it should be first defined in XAML code, before it can be referred. Static and Dynamic resources can be used as:

<Grid Background="{StaticResource myGradientBrush}"></Grid>
or
<Grid Background="{DynamicResource myGradientBrush}"></Grid>

The difference between StaticResource and DynamicResource lies in how the resources are retrieved by the referencing elements. StaticResource are retrieved only once by the referencing element and used for entire life of the resource. On the other hand, DynamicResource are acquired every time the referenced object is used.
Putting it in simpler way, if the color property of RadialGradientBrush is changed in code to Orange and Pink, then it will reflect on elements only when resource is used as DynamicResource. Below is the code to change the resource in code:

RadialGradientBrush radialGradientBrush = new RadialGradientBrush( Colors.Orange, Colors.Pink);
this.Resources["myGradientBrush"] = radialGradientBrush;

The demerit of DynamicResource is that it reduces application performance because resources are retrieved every time they are used. The best practice is to StaticResource use until there is a specific reason to use DynamicResource.

Saturday, December 31, 2011

Problem with Primary key as an Integer

We all know that any good database design has a unique primary key. Now point is how to decide, whether our primary key should be integer or not ? Well, primary key as an Integer works well with local systems and easy to use and also works great while writing manual SQL statements. But what if one is not working on local system and working in a distributed environment where one has to deal with replication scenarios. In such scenarios, Integers can't be primary key as they have state (sequencing) and can become a major security threat. Now here system demand for something unique apart from integers. And here comes GUID into picture, which provides globally unique id. You might be thinking that, is it a good choice to use 16 bytes of primary key instead of 4 bytes, then my answer will be definitely YES only when sync'ing is required. Using GUID as a row identity feels more truely unique and databse guru Joe seems to agree. But again performance issues arises in various scenarios. Just wait a while for my next post on more performance impacts


Advantages of using GUID:

  • Unique across every server, every database, every table 
  • GUID's can be generated from anywhere, without doing round trip to database
  • Provides easy merging and distribution of databases among multiple servers

Thursday, November 24, 2011

Finally I'm back to blogging world

Oh, finally I am back. First I would like to apologize for the lack of recent posts. As finally I am settled, soon I'll again start posting in a week or two.

Sunday, June 5, 2011

Reducing flicker, blinking in DataGridView

One of my project requirement was to create a Output Window similar to Visual Studio. For that I used a DataGridView. But when I start my application , I found that there is lot of blinking, flicker, pulling...After badly hitting my head with google, I found a very easy way. We just need to create a extension method to DataGridView and it's all done:

public static void DoubleBuffered(this DataGridView dgv, bool setting)
{
    Type dgvType = dgv.GetType();
    PropertyInfo pi = dgvType.GetProperty("DoubleBuffered",
          BindingFlags.Instance | BindingFlags.NonPublic);
    pi.SetValue(dgv, setting, null);
}

Saturday, May 14, 2011

Overview of CDN

CDN (Content Delivery Network)
  • A computer network which has multiple copies of data stored at different points of the network.
  •  The end user connected to a CDN will access the data from the nearest server (middle) instead of connecting to a Central server.
  •  Few of the applications include media distribution, multiplayer gaming, and distance learning.
  •  The end user can be a wired or wireless unit, which tries to access the content.
The middle servers (or several servers forming a cluster) store the images of the content from the central (main) server. They are located at the edge of the ISP network and may be geographically separated from each other.

Elements of CDN

  • Request: A request for a specific content (for e.g. a webpage) is made from the End user, which is redirected to the nearest image server. This is done by the use of a protocol known as Web Cache Communication Protocol (WCCP).
  •  Distribution: Once the request is received, a distribution element in the CDN forwards the request based on the point of origin, content availability, location and servers' global load.
  •  Delivery: Delivery of the requested content is made by this element by using routing and switching protocols.
 Algorithms/Protocols used in Request Routing
  • A variety of algorithms are used for this purpose. These include Global Server Load Balancing, DNS-based request routing, Dynamic metafile generation etc.
  • Global Server Load Balancing (GLSB) enables the content to be obtained from a server pool in a sequential manner using round-robin method and redirect the request in case of inactive server sessions.
  • DNS-based request routing: Here when a request is made (URL), the local DNS server provides the IP address of the nearest matching CDN node. If the Local DNS is not able to resolve the URL, it forwards the request to the Root DNS server, which then provides the nearest possible CDN server IP.
  • Dynamic metafile generation includes creation of a metafile, which has an ordered hierarchy of CDN domains connected to a Main server and helps in the load balancing on each of CDN nodes connected to it.
  • ICAP (Internet Content Adaptation Protocol), OPES (Open Pluggable Edge Services) and ESI (Edge Side Includes) are the protocols used for accessing data through a request in CDNs.
  • ICAP is a high level protocol that helps in generating http requests and delivers contents from the CDN servers.
  • OPES uses a Processor in order to share contents to the end users. This processor duplicates the content at each CDN node and traces the route followed by each request made by the user and notifies the user once the content is found.
  • ESI avoids back end processing delays hence providing dynamic contents with ease. It breaks web content into fragments and delivers dynamic contents to end users.

Benefits of CDNs

  • Accelerates web-based applications
  • Low connectivity latency
  • Optimization of capacity per user
  • Faster and reliable access to contents
  •  Low network loads

Improving application start up time having signed assemblies

I guess all are aware that signed assemblies need verification from CA. This verification can create panic, when certification authority is not present on the same machine. In that case, assemblies require internet access. Situation can be more problematic, if there is no internet or network access on that machine. In absence of network access .Net thread might timeout waiting to connect. This issue can be avoided by adding following setting in machine.config:
<configuration>
    <runtime>
        <generatePublisherEvidence enabled="false"/>
    </runtime>
 </configuration>

Tuesday, April 19, 2011

Security concerns with serialization

Serialization can allow other code to see or modify object instance data that would otherwise be inaccessible. Therefore, code performing serialization requires the SecurityPermission attribute from System.Security.Permissions namespace with the SerializationFormatter flag specified. The GetDataObject method should be explicitly protected to help protect your data.