Category Archives: Architecture

Understanding the SaaS architecture

Understanding the SaaS architecture

SaaS or software as a service is an innovative system of using software that has a remarkable advantage over the traditional use of software. In this system, the entire software is present in a web browser. You pay a subscription fee and can use this software. e.

In normal cases, you buy software with a lump sum and take out a license or ownership of it. Then you can use it for six months or a year. In this case, you will receive updates on the software only when the sales rep visits you in your office. Moreover, there is a time lag as you acquire the software and get it up and running.

Unlike this system, the SaaS enjoys several advantages. You can start using the software as soon as you pay the subscription. It is remotely accessed. So, there is no time lag. Moreover, the subscriptions are often paid monthly. So, if you do not like the services of a provider, you can change it next month. Updates are also pushed frequently so that you remain at the cutting edge. As long as you are not working with intellectual property or other data of a sensitive nature, SaaS can be highly beneficial to you. These services are best suitable for platforms which use industry standard workflows. You can pay on monthly basis, though a few services are priced per transaction.

Some of the important elements of the SaaS architecture are as follows:

A user case model that portray a typical scenario. It showcases the back end data exchange.
A conceptual architecture. It gives a long term prediction with an overall view of the various SaaS elements which are required for its implementation.
Finally, reference architecture can greatly enhance the utility of the SaaS architecture. It often comes as a template architecture which can easily be applied to specific problems.

One of the best software as a service platform is provided by IBM. You can try their private cloud for the best SaaS. This is an application where you can actually customize the cloud computing. The best in-class technology and security standards that are the hallmark of IBM are used for these private cloud applications. The SaaS architecture of IBM is efficient and functional and therefore suited to your needs.

The private cloud architecture is such that it vastly improves utilization, economics, storage as well as network. It includes such diverse and advanced elements like virtualized storage where workloads are consolidated into a single system, the system z cloud solution where you can build your customized solution for the platform of your choice. The PureApplication system is another proprietary system of IBM that forms one of the elements of public cloud infrastructure. S Kirti is a web enthusiast and a writer. Kirti has afforded her articles and write-ups autonomously and through various online forums.

Get more information on: saas architecture & public cloud infrastructure

Pangnse Advanced Ip Ngn Architecture System Engineer

Pangnse Advanced Ip Ngn Architecture System Engineer

Cisco Certified Architecture is the highest level of qualifications possible within the Cisco Requirements program. It is the epitome for individuals wanting to show their official approval of Cisco technologies and facilities structure.

This famous qualification recognizes the structural expertise of program Architectures who can support the increasingly complex networks of worldwide organizations and effectively turn organization methods into major technical methods. A Cisco Certified Architecture increases the organization requirements and objectives necessary to produce a strategy for a, large-scale, complex, worldwide program. They can turn organization factors and objectives into functional requirements for a program design. In addition, Cisco Certified Architectures can clearly communicate and recommend suggested Cisco program architectures.
Requirements

There are no official training applications available for the Cisco Qualified Architecture qualifications. However, candidates wanting to accomplish their Cisco Qualified Architecture qualifications must fulfill before an in-person panel made of Cisco-appointed examination panel associates during which the candidate protects their suggested system remedy.

Exam 650-754
Exam 650-754 includes 60 concerns and the time permitted is 60 moments or 1 hour. This test 650-754 is available in only British terminology. Applicants for Exam 650-754 can sign-up for examination at any Pearson VUE middle.

The 650-754 Innovative IP Next-Generation Network (NGN) Structure System Professional (PANGNSE) examinations will determine a learner’s understanding of the Cisco IP NGN architecture and capability to map specialized alternatives to business needs. This examination is a need of the Innovative IP NGN Structure Expertise for Systems Technical engineers.
650-752 Exam Topics

The following subjects are typical recommendations for the articles likely to be involved on the examination. However, other relevant subjects may also appear on any particular distribution of the examination. To be able to better indicate the 650-752 material of the examination and for quality requirements, the recommendations below may modify at any time without observe. They include:

Describe how to create and existing Cisco IP NGN alternatives as a company situation to the customer
Describe the Cisco IP NGN architecture
Describe Cisco IP NGN conditions and advantages
Describe Cisco IP NGN alternatives and how to arrange them with client needs
Describe typical client objections
Describe the aggressive surroundings and how to place Cisco IP NGN solutions
Describe how to create and existing Cisco IP NGN alternatives as a company situation to the customer
Describe the company and specialized advantages of the Cisco IP NGN architecture
Describe the company influencers for Cisco IP NGN structure applications
Implement Cisco IP NGN structure scenarios
Jobs of the Cisco Qualified Architecture
Lead growth and advance of architecture
Analyze engineering and industry market trends
Establish with regards to principles for networks
Selection of engineering and products
Identification of company resource needs
Direct the growth of connections and understanding strategy for system architecture

Applicants seeking to use to become a Cisco Qualified Architecture must also keep an actual Cisco Qualified Design (CCDE) certification, confirming their expert level style and company level skills set.

Know About Iranian Architecture

Know About Iranian Architecture

Iranian architecture displays a class and elegance that cannot be matched with any other style of architecture and design. It is quite distinct from that of Muslim countries. The major features of Iranian architecture are: structural ingenuity basically in vault and dome construction; a skill of decoration with freedom and intricacy incomparable to any other form of architecture.

The pre-Islamic buildings include the remarkable Elamite ziggurat at Chogha Zanbil. Baked brick was used for outer surfaces by the 12th century BC. Most of the greatest buildings were built with a religious purpose, and even in secular buildings religious influences are entirely absent. Palaces were present, and their shapes, sizes and colors varied according to the ruling dynasty.

The first great development of ancient Persian architecture took place under the Achaemenid dynasty during the Persian Empire, from about 550 to 330 BC. There are numerous remains of Achaemenian period, including two palaces, a sacred precinct, a citadel, a tower, and the tomb of Cyrus.

Royal architecture under the Achaemenid also included tombs cut in solid rock, of which the best-known examples are those at Naqshah Rostam near Persepolis. Little is known of the popular building practices of the period, but archaeologists believe that the ordinary dwelling was made of mud brick. After the conquest of Persia by Alexander the Great, Greek influence, in its late, Hellenistic phase, was predominant in the arts of Persia. Examples include fragments of bronze sculpture found at Shami, and the Parthian sculptural reliefs at Behistun.

During the Islamic period “mosques” became the major buildings in Iranian architecture. Outstanding examples of early Islamic Iranian architecture include the Mosque of Baghdad built in 764, the Great Mosque at Samarra erected in 847, and the early 10th-century mosque at Nayin.

After the 17th century, Iranian artists copied European paintings and engravings, and the native traditions declined. But Iranian architecture still managed to leave a huge impact on the world.

Multisynth-based Architecture

Multisynth-based Architecture

Traditional clock generators use a simple integer-N phased-locked loop (PLL)-based architecture. The output clock frequency is a function of the input clock frequency and the PLL divider values as shown in the equation
Equation: fOUT = fIN.N/P.R
Traditional single PLL-based IC solutions are suitable for simple integer clock multiplication of reference inputs or clock generation from crystal inputs. However, many applications require clock generation of multiple non-integer-related frequencies (e.g., 125 MHz Ethernet and 106.25llMHz Fibre Channel). Traditional solutions require that the crystal frequency be changed to support each unique frequency plan. This forces the designer to use one or more custom crystals and multiple clock generator ICs to generate the required set of frequencies, increasing the cost, complexity and power consumption of the overall solution.

New Any-Rate Clock Multiplier Architecture Simplifies Design
Recent advances in mixed-signal analog design have made it possible to provide any-rate frequency synthesis from a single device. Silicon Labs newest clock architecture leverages a fractional-N PLL used in concert with a low-jitter fractional divider termed MultiSynth to produce any-rate frequency synthesis on multiple output clocks. The flagship of this new product family is the Si5338 Any-Rate, Any-Output Quad Clock Generator. This technology dramatically simplifies timing architectures by integrating the frequency synthesis capability of four PLLs in a single device, greatly reducing size and power requirements compared to traditional solutions.

MultiSynth Technology
The Si5338s low phase noise, high-frequency VCO supplies a high-frequency output clock to the MultiSynth block on each of the four independent output paths. The first stage of the MultiSynth architecture is a fractional-N divider, which switches seamlessly between the two closest integer divider values to produce the exact output clock frequency with 0 ppm error. To eliminate phase error generated by this process, the MultiSynth calculates the relative phase difference between the clock produced by the fractional-N divider and the desired output clock and dynamically adjusts the phase to match the ideal clock waveform. This novel approach makes it possible to generate any output clock frequency without sacrificing jitter performance. Based on this architecture, each output clock can be individually programmed to generate any frequency from 0.16 to 350 MHz, and select frequencies to 700 MHz. Typical jitter performance enabled by this MultiSynth-based architecture is 1 ps RMS.