Choosing Between HDD vs. SSD Reseller Hosting

When choosing your Reseller Hosting, like Linux Reseller Hosting, you can select storage options in different Reseller Hosting plans, such as HDD and SSD. 

Understanding the basic differences and advantages each storage type offers is crucial to make an informed decision and buy web hosting that best suits your needs. 

When selecting the best Reseller Web Hosting company, it is essential to exercise caution and consider the availability of factors such as proper server management, number of accounts on the server, regular server monitoring, website performance, and up-to-date server security.

This article will guide you through choosing between HDD and SSD for your Reseller Web Hosting account. 

By the end of this article, you will clearly understand which option works better for your specific needs and which hosting to buy from a reliable Reseller Hosting provider

What is HDD Hosting?

HDD Hosting refers to hosting services utilizing Hard Disk Drives to store website content and resources on physical servers. Setting up HDD Hosting may require some technical knowledge and effort.

Advantages of HDD Hosting

  • Affordability: HDD drives are more cost-effective compared to SSD drives.
  • Higher storage capacity: HDD drives can support up to 12 TB per drive and are commonly used for backup and data storage.

Disadvantages of HDD Hosting

  • Slower performance: HDD drives are slower than SSD drives regarding data access and transfer speeds.
  • Higher failure rate: HDD drives have a higher risk of failure than SSD drives.

What is SSD Hosting?

SSD Hosting refers to hosting services that utilize Solid State Drives (SSDs) instead of traditional Hard Disk Drives (HDDs). In SSD hosting, everything is pre-configured and managed by a backend server, so it requires no technical knowledge, and the data is stored in semiconductor-based memory in SSDs.

Advantages of SSD Hosting

  • High performance: SSD drives offer faster read and write speeds, eliminating input/output bottlenecks and allowing better utilization of the CPU.
  • Reliability: SSD drives are more reliable than HDD drives.
  • Faster website loading: SSD Hosting results in faster website loading times, improving user experience.

Disadvantages of SSD Hosting

  • Higher cost: SSD drives are generally more expensive than HDD drives.


  • Hosting Speed

SSDs offer significantly faster data access and transfer speeds than HDDs due to their lack of moving parts. This results in faster website loading times and lower latency.

  • Reliability and Storage

SSDs provide higher reliability and faster data storage and retrieval than HDDs.

  • Data Security

SSDs are more resistant to mechanical damage and have longer lifespans than HDDs.

  • Environment Friendliness

HDDs are less environmentally friendly due to their use of a magnetic coating, while SSDs utilize metal oxide semiconductors for their memory cells.

  • Cost

HDDs are generally more affordable than SSDs.

  • Power Consumption

SSDs consume significantly less power than HDDs, leading to lower energy consumption.

Conclusion: Between HDD OR SSD, Which Suits Your Storage Requirements?

If your primary concerns are fast speed, reliability, and increased security for your data storage requirements, you should buy Reseller Hosting services powered by SSD. You can use shared hosting with Solid State Drives or dedicated SSD Hosting, depending on your budget and specific needs. 

However, if your goal is to achieve quick website loading, minimal latency, and improved security, SSD hosting is the perfect solution.

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Reasons To Pursue B.Tech After B.Sc

Why to Pursue B.Tech After B.Sc? - Data Science, AI & ML



When students are in high school, their path to success is often an evolving journey, filled with choices and opportunities. If you have completed your B.Sc. degree and find yourself confused about the next step in your academic pursuit, the idea of pursuing a B.Tech degree might have crossed your mind. B.Tech course opens a world of possibilities and bridges the gap between theory and application. 

In this blog, we will embark on a captivating exploration of the reasons why pursuing a B.Tech after a B.Sc. can be a transformative choice. 


Why B.Tech is the best choice after B.Sc?

A B.Tech course after a B.Sc course is the best choice for many reasons. Give below are a few reasons why it is the best:


Career Opportunities: B.Tech graduates often have a wider range of career opportunities compared to B.Sc graduates. Engineering disciplines such as B.Tech in computer science, B.Tech in electrical engineering, B.Tech in mechanical engineering, B.Tech in civil engineering, and others offer diverse career paths in industries like technology, manufacturing, construction, energy, telecommunications, and more. 


Practical Application: B.Tech programs typically focus on the practical application of scientific principles and theories. While a B.Sc degree provides a solid theoretical foundation, a B.Tech program will help you in developing hands-on skills and technical knowledge that are highly valued in the industry. This practical approach can make you more job-ready and increase your employability.


Industry Relevance: B.Tech degrees are often designed to meet the demands of specific industries and sectors. This means that upon graduation, you will have a better understanding of industry practices, technologies, and trends, making it easier to transition into a relevant job role.


Engineering Skills: B.Tech programs typically focus on developing engineering skills, such as problem-solving, critical thinking, analytical abilities, and technical proficiency. These skills are highly in demand across various industries. 


Professional Accreditation: Many B.Tech programs are accredited by professional bodies and organisations, which adds credibility and recognition to your degree. It may also provide you with opportunities for professional networking, internships, and access to industry events.


Eligibility criteria for B.Tech after B.Sc

  • Students must have completed their 12th standard with a minimum of 50% from the science stream (physics + chemistry + maths).
  • They should have also completed their B.Sc degree with a minimum of 45% from a recognised university.


Benefits of choosing B.Tech after B.Sc

Specialised Technical Knowledge: B.Tech courses provide specialised technical knowledge in a specific field of engineering. By going from a B.Sc to a B.Tech, you can have a deeper understanding of a particular area of interest and gain expertise in that domain. 


Enhanced Employability: Combining a B.Sc with a B.Tech can make you a highly competitive candidate in the job market. Employers often value candidates with diverse educational backgrounds who can bring a multidisciplinary perspective to their work. Your combined knowledge of scientific principles and engineering skills can make you stand out among other applicants and increase your chances of securing desirable job positions.


Interdisciplinary Projects and Collaborations: With a combined B.Sc and B.Tech background, you can contribute effectively to interdisciplinary projects and collaborations. Many industries and research fields require professionals who can bridge the gap between scientific research and practical engineering applications.


Higher Earning Potential: B.Tech graduates often enjoy higher earning potential compared to B.Sc graduates. Engineering roles are often in high demand, and the specialised technical skills acquired during a B.Tech program are highly valued by employers. 


Professional Networking: Pursuing a B.Tech degree exposes you to a network of professionals, faculty, and fellow students in the engineering field. This network can provide valuable connections, mentorship opportunities, and industry insights. 


Job Scope after B.Tech 

After completing a B.Tech degree following a B.Sc degree, you can benefit from a diverse range of career opportunities that combine both scientific and engineering knowledge. Here are some potential job scopes:


Job scopes Description
Research and Development (R&D) This involves working on innovative projects, designing experiments, analysing data, and developing new products or technologies.
Technical Consultancy You can provide expert advice, solutions, and recommendations to clients or organisations in areas that require both scientific and engineering perspectives.
Data Analysis and Modeling This involves analysing complex scientific and engineering data and building mathematical models for predictions and simulations.
Environmental and Sustainability Engineering There is an increasing demand for professionals who can integrate scientific understanding with engineering solutions. You can contribute to areas like renewable energy, waste management, environmental impact assessment, and sustainable development.
Biomedical Engineering If your B.Sc specialisation was in a biological or life science field, and you pursued a B.Tech in biomedical engineering, you can work at the intersection of science and engineering in the healthcare industry.
Technological Innovation and Entrepreneurship Your combined knowledge can be helpful in pursuing entrepreneurial ventures or contributing to technological innovation



Pursuing a B.Tech after B.Sc. opens doors to higher education opportunities. By combining the analytical and scientific thinking developed during your B.Sc. with the technical expertise gained through a B.Tech program, you position yourself for a fulfilling and successful career that aligns with your passions and interests.

Advance your career with Sunstone while studying at the top B.Tech colleges. At Sunstone students can learn occupational skills with the help of training courses. It also provides placement assistance and interview guarantees to its students, which can help secure job offers. 


Can we do B.Sc after B.Tech?

Yes, you can pursue a B.Sc degree after a B.Tech degree.


How long is a B.Tech degree after the B.Sc program? 

In general, a B.Tech degree is of four years, but if you are pursuing a course after a B.Sc course then the duration of a degree might reduce.


Can I do B.Sc and B.Tech?

Yes, it is possible to pursue both a B.Sc and a B.Tech  degree. 

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A Beginner’s Guide To Windows Shared Hosting

Are you confused about which shared hosting to choose? If so, you’re not alone. Many people find it difficult to decide between Windows and Linux-based shared hosting options.

Acknowledging the pain points, this blog seeks to be a comprehensive guide for beginners, helping them understand how Windows Shared Hosting works. Here you can learn more about Windows Shared Hosting and thereby can make the right choices when it comes to hosting. 

You might also want to check out Hosting Providers in India offering the best Windows and Linux Shared Hosting plans. These plans are tailored to meet users’ needs and provide excellent customer support to resolve issues.

Windows Shared Hosting is an excellent starting point if you are a beginner seeking to establish an online presence. From its robust features to seamless integration with Windows applications.

Read on to learn more!

What is Windows Shared Hosting?

Windows Shared Hosting is a web hosting type involving multiple websites sharing server space. In this setup, all the websites hosted on the server share their resources. 

Each website is allocated a specific amount of server resources and space, depending on the chosen hosting plan.

  • Pros of  Windows Shared Hosting

  1. The best Windows Shared Hosting offers an intuitive user experience for those who directly interact with the server’s operating system due to Windows’ widespread usage.
  2. It has a user-friendly Plesk control panel, simplifying website management, domain setup, email configuration, and access to extensions for added functionality.
  • Cons of Windows Shared Hosting

  1. Windows hosting has faced more ransomware attacks than Linux hosting, making Linux the preferred option for security-conscious websites.
  2. It may be marginally more expensive than Linux hosting but manageable for businesses already using Windows products.

Key Features of Windows Shared Hosting

Feature What Do They Mean?
Windows Operating System It runs on the Windows operating system, making it suitable for websites and applications developed using Windows-specific technologies like ASP.NET, Visual Basic, and C#.
ASP.NET and ASP Classic Support Windows Shared Hosting supports ASP.NET for dynamic web pages and ASP Classic for legacy applications, providing flexibility for various website development approaches.
Robust Security Windows is backed by a significant corporation, leading to frequent and often free security patches. Hosting providers can offer additional security features to strengthen the security.
Plesk Control Panel It offers a user-friendly Plesk control panel, facilitating easy website management, domain setup, email configuration, and application installations.
Microsoft Access Database Some Windows Shared Hosting plans support Microsoft Access databases, providing additional data storage and retrieval options.
Windows-Specific Development Windows Shared Hosting environments are optimised to handle applications and scripts explicitly developed for Windows-based systems.
Enhanced Technical Support It often provides superior technical support, beneficial for first-time site owners and small businesses to minimise maintenance and error-fixing time.


Windows Shared Hosting is an excellent choice for beginners entering the world of web hosting. With its user-friendly interface, support for popular Windows applications, and cost-effectiveness, Windows Shared Hosting is an ideal starting point for website owners looking to establish their online presence swiftly.

When you decide to opt for a Windows Shared Hosting plan, remember to assess your needs, explore plans from reputable providers for Windows Shared Hosting in India, and select the one that suits you best.

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What Is The Difference Between Bare Metal and Hosted Hypervisor?

Hypervisor Type 1 vs. Type 2: Difference Between the Two – HitechNectar

Server virtualization is a widely used technology in the IT industry, mainly used in Web Hosting services. Hypervisors are server virtualization software that helps Web Hosting Companies use their resources most effectively. 

These hypervisors help run different applications on a single server without needing extra physical resources in dedicated systems. This is a virtual machine that simulates the software and hardware of a computer. 

If searching for the best Domain Hosting in NZ, you can opt for different cheap hosting services from NZ Hosting Providers. You can buy NZ Web Hosting at an affordable cost with them.

Let’s learn more.

What is a Bare Metal Hypervisor?

Bare metal refers to a server dedicated to a single tenant or user, meaning only you can access its resources. Unlike the cloud model, where multiple users share the same physical server, a bare metal server is exclusive to you. This eliminates the “noisy neighbor” effect, where one user’s activities can negatively impact others on the server. 

  • Key Features of Bare Metal Hypervisor

The key features of Bare Metal Hypervisor include:

  • Type 1 hypervisor
  • Runs directly on server hardware
  • Direct access to hardware resources
  • High performance and isolation
  • Managed through a console or command-line
  • Used in enterprise and cloud environments

What is a Hosted Hypervisor?

A hypervisor, on the other hand, is an operating system that enables the creation of virtual machines within a bare metal server. With a traditional bare metal server, the operating system is directly installed on the server, and applications run natively within that operating system.

  • Key Features of Hosted Hypervisor

The key features of Hosted Hypervisor include:

  • Type 2 hypervisor
  • It runs on top of an OS
  • Relies on host OS for resource allocation
  • Some performance overhead
  • Managed through GUI or command line
  • Used in desktop and small-scale scenarios

Differences Between Bare Metal and Hosted Hypervisor

Different types of hypervisors exist, such as bare metal and hosted hypervisors. So, you might wonder which one to choose and how they work. Don’t worry, based on the differences between these two types, you can select the best.

Parameters Bare Metal Hosted Hypervisor

Underlying Architecture

Bare Metal Hypervisor, or Type 1, runs directly on server hardware without an OS.  Hosted Hypervisor, Type 2, runs on top of an OS like Windows or Linux.

Resource Allocation

Bare Metal Hypervisor provides direct control over hardware resources, offering high performance and isolation.  Hosted Hypervisor relies on the host OS for resource allocation, introducing performance overhead.

Management and Flexibility

Bare Metal Hypervisor is managed through a console or command line. Hosted Hypervisor is managed through GUI or command-line.

Deployment Scenarios

Bare Metal Hypervisor is used in the enterprise and cloud environments for critical applications. Hosted Hypervisor is suitable for small-scale scenarios and running multiple OSs on one machine.


Both bare metal hypervisors and hosted hypervisors are great options for server virtualization, and the choice ultimately depends on your specific needs. Both approaches are efficient and provide effective resource utilisation of physical servers, enhancing overall hosting performance and improving website performance. 

Whether you need to run applications on the server or manage resources for your physical servers, both hypervisors effectively fulfil these requirements.

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