What Are the Advantages of Using Cloud Migration Services

7Many companies today around the world are looking to switch to cloud based solutions for their businesses. These can include switching to office tools such as Google Apps or Office 365, or instead adopting the use of software such as Xero and Unleashed, which fulfil entirely different purposes altogether.

Although these are some of the most popular cloud solutions, more and more options are appearing on the market on a regular basis, which can be considered a testament to the success of cloud as a modern day software solution for business.

With that said, switching over to cloud based solutions from traditional ones can be a stressful and confusing business. It is for this very reason that more and more people are looking for independent service providers and IT experts to help them make the move. Here are some of the main advantages of seeking out professional help in this instance.

The first benefit of using professional Office 365 or Google for work migration services is that this will take the effort and stress of the whole endeavour out of the hands of business owners who are not sure how to effectively manage the entire operation themselves.

In the case of larger businesses, there are often IT departments which are tasked with carrying out these kinds of improvements and updates on a regular basis. Due to budget and manpower restrictions affecting smaller companies, it is often a great idea to call in an expert who truly knows what he or she is doing.

As many people will often recount, switching to cloud based services seems relatively simple on paper, yet it can be long, time-consuming and even highly confusing if you are not very technically-proficient or are concerned about making a major error. For this reason, Office 36 and Google for work migration services have become very popular.

The advantage is basically that dangerous mistakes will be avoided with a full and carefully thought-out plan put into place by the professional in question, and it will not take up any of the business owner’s time. No mistakes mixed with efficiency will mean that the business will have a smooth transition into the use of cloud solutions.

The next important point to make is that hiring a professional to complete your migration means that your company will be able to incorporate several solutions at once, not only limiting itself to an Office 365 or Google Apps migration.

In many cases, businesses benefit from integrating several different types of cloud solution into their business, and a professional company will be able to help plan things accurately and strategically to make sure that this is handled carefully, thoughtfully and efficiently in order for there to be minimum disruption to business.

Furthermore as well as providing Xero, Unleashed or Google for work migration services, it is also possible for these professionals to carefully analyse each company’s needs before carrying out a migration. This is important, as for those people who are not experts in the area can find it difficult to determine the right product or solution for them.

Instead, experts will be able to use their combined knowledge of different cloud software together with their experience to fashion a tailored solution for each and every client. This will ultimately lead to much better results and a business with a fully integrated cloud solution that works like clockwork.

Although it is a wise move for many companies to considered switching to cloud solutions for their business, it is not always so wise to go it alone. Instead, it is worth finding a service provider who will help you make the switch, as this can lead to great efficiency and business success in both the short term and the long term.

6 Interesting Things You Should Know About Fiber Optic Cables

8While fiber optic cables have been around for long, few people know about it. Here are 6 things that you should know about them:

They have a solid history

Although, many people started hearing of these cables in the 1990’s they have been there since 1870’s. Just like any other technology, the cables have been growing and improving everyday and they will continue being made better.

They are green

To protect the environment, companies have been coming up with harmless products. Fiber optic cables are one of the harmless products that consume just minimal amounts of light to transfer data from one place to another. Due to the low energy required, low levels of carbon dioxide are released thus the environment is protected. The low energy also means that the cost of running the cables is low which saves money to network owners. The users also have a great experience.

The cable uses light

Most of the data cables known to mankind use power to transfer data, but this isn’t the case with fiber optics. The units use light thus there is no heat involved. Absence of heat means that the cable isn’t a fire hazard; therefore, you don’t have to shy away from installing it in your home or office.

They transfer data fast

Due to their increased capacity, the units have been shown to transmit data much faster compared to their traditional counterparts. Currently, the units have the ability of transmitting up to 16 terabits of data in one second over a 7,000km distance. The fast nature of the units and their high capacities translates to fewer connections and great experience to both the network owner and consumer.

They have a wide range of applications

If you ask many people, they will tell you that fiber optic cables are only used in transferring computer data. While the units are heavily used in this application, they are also used in other areas such as: art, signs, imaging optics, spectroscopy, gun sights and artificial Christmas trees.

They are weather resistant

Since the units use light instead of electricity like the traditional units, they aren’t affected by changes in rain, temperature, cold and other weather conditions.


These are 6 things that you should know about fiber optic cables. To have a great experience, ensure that you use cables from a reputable manufacturer. For the cable to continue working effectively, clean it regularly.

We specialize in manufacturing a wide range of fiber optic machines such as SZ stranding line. We also have Secondary coating line and many other tools. Visit the given links to know more about us.

How We Can Choose Display Interface for Video Surveillance


Video interfaces connect the monitor to the Image decoding device. Concerns over image quality and video protection has led to significant changes in display interface technology gradually. Although the VGA interface is still used in PCs, the future is moving to digital interfaces. Various methods including analog connector, hybrid digital plus analog interfaces and several digital interfaces have been developed up to now. However, there is some overlap in the features of display interfaces. We study several practical analog and digital video interfaces.

Analog display interfaces


S-video, standing for Separate Video, transmits video signals over a cable by dividing into two separate signals: one for color and another for brightness. Due to this separation, sharper and higher quality images than composite video can be achieved. S-video does not carry audio, so it commonly run with red and white RCA audio cables.

Component video

This video interface is superior over both composite and S-video. Because its three cables better preserve the various elements of the video signal including brightness and color, resulting in enhanced picture quality. Component video uses three RCA connections, Red, Blue and Green to send video signals. It carries visual data only, meaning that audio cables are still required. Hence, it is usually paired with stereo (red and white) RCA audio connections.


VGA or Video Graphics Array is the most popular video connection between computers and monitors. It is used on computer video cards, projectors and set top boxes. A standard VGA connection has 15 pins and supports display resolution of 640*480 pixels, while enhanced version SVGA is allowed for resolution of 1024*768. It is worth mentioning that the maximum resolution is limited by the connector bandwidth and cable quality and length.

In the VGA connector, due to tiny little pins into a small connector, building small coaxial cables is hard.

Digital display interfaces


Digital Video Interface (DVI) has been designed as a replacement for VGA (analog interface). However, in some cases DVI still supports analog displays. In fact, DVI is the only standard which can carry both analog and digital signals on one interface. If the display is analog, the DVI connection will convert the digital signal to an analog signal, otherwise no conversion will be necessary. It is worth mentioning that, the analog video bandwidth of DVI is higher than VGA, thus higher resolution can be supported compared to VGA. So, it can be applied by high resolution displays such as UXGA and HDTV.

DVI cables or ports with fewer pins are designed for lower resolution devices. In order to support maximum resolution, the DVI port should contain all the pins. Since DVI does not support High-bandwidth Digital Content Protection (HDCP) encryption by default, by using hardware which only includes DVI ports, the video protection is not guaranteed. This is the biggest drawback of DVI. Since HDCP protects video from illegal copying, this feature is very critical for video surveillance systems.

DVI has several variants: DVI-D (digital only), DVI-A (analog only) and integrated DVI-I which carries both digital and analog video. DVI connections are popular on computer video cards, monitors and projectors.


High-Definition Multimedia Interface (HDMI) transmits uncompressed digital HD video and audio data in a single cable, while other connections require separate cables for audio and video. For instance, a component cable connection uses three cables for video and two for audio, resulting in five cables totally. While using HDMI, the uncompressed audio and video information can be transmitted using one cable, thus cable clutter is eliminated greatly.

Since HDMI is a digital connection, it is more robust to interference and noise problem compared to analog connections. Since most processes are the digital such as DVD players, Blue-ray players and game consoles, so by using HDMI for these consumers the analog to digital conversion will be eliminated. So, it leads to better quality picture and sound compared to other connections. Also HDMI supports HDCP, meaning that it is practical for video surveillance systems. HDMI connection is the most popular display interface, found on every TV, AV receiver, Blue-ray disk player, DVR, laptops and digital cameras, because by using HDMI, there is no need to buy separate audio and video cables. Therefore, fewer cables and connections are used.


DisplayPort as a standard port to connect PCs, laptops, and other computers to video monitors has been called ultimate digital connection. It is a high definition AV connection which transmits audio and video data over a single cable with a locking connector. DisplayPort is a simple but high bandwidth interface which provides true digital images and clear sounds. It can even supply power.

One of the advantages of DisplayPort is that it works with older technology, as by using simple adapters, it is compatible with VGA, DVI even HDMI. DisplayPort enables high display performance, robustness, versatility, highest degree of system integration, and great interoperability among various device types. DisplayPort was originally developed as the next generation personal computer display interface and is now available on a wide range of tablets, notebooks, desktop computers and monitors. It is included on all newer Macs and many Dell, HP, and Lenovo computers and is also available on video graphics cards. DisplayPort can be used for consumer electronics but is not common.

DisplayPort is hot-pluggable, meaning that connections can be reconfigured without the need to restart the device. Also DisplayPort supports DPCP (DisplayPort Content Protection) and HDCP (High bandwidth Digital Content Protection). These two prevent illegal copying, so they are very critical in video security.

Comparing HDMI and DisplayPort

HDMI and DisplayPort are modern serial interfaces to transmit digital video over cables from one device to another. They are replacement for analog interfaces like VGA and S-video. DisplayPort is a newer connector can be found on Apple’s iMac desktops. It is compatible with HDMI signals, thus product interoperability is achieved.

The HDMI and DisplayPort both carry audio and video data on a same cable. They also support High-bandwidth Digital Content Protection (HDCP) to encrypt copyrighted video and audio data for the newest HD content. Therefore, data is protected from being played or copied during transmission over the interface.

Transmitting video and audio in high definition format (HD) must be conducted through interfaces with high data transfer rate. HDMI and DisplayPort are both high-speed digital interfaces, but they differ in several aspects. HDMI is mainly used for consumer electronics equipment, while DisplayPort is primarily developed for computer and peripheral video connections. In the following some of the main differences between these two, are studied.

Type of connector:

There are three main types of HDMI ports, each with 19 pins. The standard size (Type A) commonly found on TVs, projectors, set-top boxes and laptops. Smaller HDMI (Type B) is called mini- and mainly found on some laptops and tablets. The smallest is micro-HDMI (Type C) found on tablets and smartphones.

DisplayPort is available in two different types with 20 pins. One of them is the full-size version and the other is smaller called Mini DisplayPort which is used in Apple laptops.

Supporting the quantity of monitors (video and audio stream):

In video surveillance, using more than one display is preferable. Also, many gamers use two or more monitors simultaneously. HDMI can handle single video stream and a single audio stream, so it can support only one display at a time.

On the other hand, DiaplayPort can connect to multiple monitors up to four with a 1920-by-1200 pixel resolution. By using multiple DisplayPort interfaces, connecting as many as six display to one output is feasible.

Cable length:

The maximum cable length supported by each interface is an important subject. Since high data rate signals will be degraded over lengths, so cables should be kept short. A maximum HDMI cable length has not been specified, and a wide range of lengths is available, but manufacturers limit them to 15 meters (about 49 feet). For instance, by HDMI cables as long as 50 feet, the quality of video data has been degraded. In order to cover a long distance, a signal booster or an active cable to amplify the signal might be needed.

For DisplayPort, 3840- by- 2160 pixels (4K) video over a length up to 2 meters by using a passive cable can be achieved. Also, running a passive cable up to 15 meters is possible, but resolution will be limited to 1080p (full-HD), as defined by the standard.

Ethernet channel:

DisplayPort does not support Ethernet data and the standard does not have an audio return channel, while by using the latest version of HDMI, 100 Mbps HDMI Ethernet Channel (HEC) can be implemented. HEC is used primarily for audio control.

The Ethernet channel can be used to provide an Internet connection between devices, especially when HDMI devices are used for streaming video or other content from the Internet.

Advantages of HDMI in video surveillance

HDMI cables have several advantages that make it superior over some interfaces like DVI and component video, especially in video surveillance systems.

HDMI includes all components of both video and audio data in one cable, so there is no need for extra cables. Because, everything is contained in one compact cable package. HDMI transmission line could be used instead of at most 13 similar transmission lines, thus the problem of cable clutter will be solved effectively.

On the other hand, like many other modern data transmission cables, an HDMI cable is composed of a series of twisted pairs. It has been proved that this cable manufacturing technology, is superior over other cables even huge coaxial cables for reducing noise and interferences. Also HDMI guarantees HDCP, thus video information is protected from copying during transmission, confirming its benefit in video surveillance.

Why we should consider DisplayPort in addition to HDMI in video surveillance?

In video streaming, choosing the types of video connection to stream the content to the display is an important issue. Over the years, delivering this content through HDMI, DVI, and VGA cables has been the most popular method.

In recent years, a new technology called DisplayPort has been developed. It has slowly been adopted by motherboard and displays. By the newest version DisplayPort 1.2, achieving to 4K60p resolution (3840×2160@60Hz) is possible, while HDMI only provides this resolution at half the frame rate or less.

The most important advantage of DisplayPort 1.2 over the other standards is a Multi-Stream Transport (MST) technology, in which DisplayPort can transfer multiple video streams from one video output by using 21.6 Gbps bandwidth. Therefore, achieving up to 4 displays with 1080p resolution from a single DisplayPort output is possible, confirming the benefit of DisplayPort for video surveillance.


The main digital connectors used on computers and display devices are DVI and HDMI. DisplayPort is a newer connector mainly designed to replace VGA and DVI ports. The first choice to connect a device to display is HDMI which is commonly used in the most NVRs. The cables are cheap and it also carries audio. On the other hand, HDMI has some limitations and is not a perfect choice for all purposes. In most cases HDMI is fine, but for really high resolutions and frame rates, other options might be taken into consideration.

Since DisplayPort can support multiple displays and also due to its ability to connect to nearly any other type of monitor with an inexpensive adapter, getting a video recorder device which offers DisplayPort in addition to HDMI, is an admirable choice in video surveillance industry.

Storage Interfaces in Video Surveillance

9Storage units are essential parts and/or a peripheral component of each video surveillance recording solution and are divided into two main categories: external and internal. Internal storage is usually a set of hard disks which are available in different capacities and technical specifications. Examples of external storages are removable flash disks, portable HDDs, etc. In all of the storage units the interface plays an essential role due to its functionality as the gateway of all of the data transferred between the storage unit and the recorder. The speed and performance of the data interface can be the performance bottleneck of the recording solution and may determine the maximum devices that the recorder can optimally support. The ATA interface has been originally developed for the internal HDDs of desktop PCs, while Small Computer System Interface (SCSI) has been developed for servers and large scale storage systems. Due to demand for high speed data transfer, hard disk interfaces are moving from parallel to serial transmission. For instance, Serial Attached SCSI (SAS) will replace Parallel SCSI and Fiber Channel (FC), Serial ATA (SATA) will replace Parallel ATA. This report describes the features of the main interfaces involved in storage systems. Also, the application of several interfaces in video surveillance is studied and the best choice for video recorders is discussed. At the end of the report, a comparative study is presented.


ATA (also known as IDE) stands for Advanced Technology Attachment which is used to connect hard disk drives, CD-ROM drives and similar peripherals to computers. The first ATA interface is now commonly referred as PATA (parallel ATA), working based on parallel transmission. It provides a transfer rate of 133 Mb/s.


SCSI, standing for Small Computer System Interface, is a parallel interface standard used primarily for high speed hard drives. It supports faster data transfer rates than the IDE storage interface. Since in this technology multiple SCSI hard drives can be connected to single SCSI interface, it is really an I/O bus rather than simply an interface. Although SCSI has been popular in the past, today many users are switching over to SATA drives.


SCSI is gradually evolved into SAS or serial attachment SCSI. SAS is a point-to-point serial interface in which controllers are linked directly to disk drives. Its full-duplex signal transmission supports 3.0Gb/s. Using SAS, multiple devices (up to 128) will be enable to connect simultaneously with thinner and longer cables, confirming its superiority over the traditional SCSI.

SATA (Serial Advanced Technology Attachment)

SATA or serial ATA is a standard hard disk interface invented to replace the parallel ATA (PATA). Since in parallel transmission, several bits are sent at the same time, it seems this method is better than serial transmission in terms of speed, but noise problem occurs in parallel transmission. Since many wires have to be used (one for each bit to be sent), one wire generates interference in another. This is the main drawback of parallel transmissions like PATA. On the other hand, serial transmission uses just one wire to transmit data, so it is more robustness against noise.

In fact, SATA was developed to serialize the parallel ATA interface which transmits data in a serial mode. It is a very simple interface which supports only point to point connection. Since in SATA at least eight bits per clock cycle will be transmitted, it is eight times faster than serial transmission where only one bit is transmitted per clock.

Actually, higher clock rate can be used on serial transmission, thus, transferring in very high clock rates leads to higher transfer rate compared to parallel transmission. SATA provides a transfer rate of 1.5 Gb/s.

Another advantage of serial transmission is fewer wires need to be used. Parallel ports use 40 pin connector and 80 wire cables, while SATA ports use seven pin connector and seven wire cables. So, using thinner cables makes airflow inside the PC case simply.


External Serial Advanced Technology Attachment or eSATA is a SATA interface variation that supports external storage devices. It competes with FireWire 400 and universal serial bus (USB) 2.0 to provide fast data transfer speeds. eSATA increases the speed of SATA in terms of exterior storage. Its transfer rate reaches at least to triple the rate of USB 2.0 and FireWire 400, although it has one drawback. eSATA requires its own power connector, unlike the other interfaces, meaning that an additional USB cable is needed to supply energy.

It uses the same pins and the same protocol as internal SATA, thus eSATA drives offers the same high speed data transfer rate. However, eSATA can support the cable length of two meters compared to the one meter supported by SATA.

It is worth mentioning that unlike USB and Firewire interfaces, eSATA does not have to translate data between the interface and the computer, this enhances data transfer speed, also you do not need additional chip. Since eSATA offers such fast transfer rates, it has been a popular external hard drive interface used by video editors, audio producers, and other media professionals.

While eSATA is one of the fastest interfaces, it is surpassed by both Thunderbolt (10 Gbps) and Thunderbolt 2.0 (20 Gbps), which are alternatives to eSATA.

Why SATA is superior in video surveillance?

In video surveillance, just achieving the required storage capacity is not enough. Maintaining data integrity during transmission as well as error correction features is also needed. Parallel ATA drives deliver admirable operation in these tasks and now SATA drives are raising surveillance storage performance even higher. The SATA interface has presented valuable advantages in very large scale technology (VLSI) and high-speed serial transmission, enabling SATA drives to deliver an unbeatable blend of performance, flexibility, data integrity and reliability.

In NVR or DVR hard disks are connected to SATA connector on motherboard via SATA interface cable. It should be mentioned that each SATA interface can support specified hard disk capacity.

There are two major advantages for SATA which encourage user to use SATA in video surveillance. SATA has shown its superiority in RAID operations because all connections are point-to-point and the design is not complicated. Also, since RAID controllers are designed for larger numbers of hard disk drives, they can only be connected using the small SATA seven-wire interface on a backplane. This would be impossible via parallel ATA by 80-wire busses. The quantity of SATA interface determines how many hard disks can be connected to NVR for video storage. By choosing the NVR with as many SATA interfaces as possible, you can connect many hard drives for video storage. If users have limited selection for this, extending the video storage via its eSATA interface is possible. The eSATA allows NVR to achieve unlimited video storage space.

According to the mentioned, using SATA drives in surveillance storage have been increased greatly and SATA interface is an excellent choice for high storage in video surveillance application, undoubtedly.

If multiple digital recorder systems are connected to one or more RAID systems, fiber channel optical cables are used as the interfaces. Since the connections become more flexible and connectivity is possible over a longer distance. On the other hand, if each digital recorder system has its own RAID system, SCSI cables can be used as well.

The advantages of SATA II

Due to the some features presented in this section, SATA II makes SATA more appropriate for long-term storage in video surveillance.

  • Port multipliers

Port Multipliers increase the number of SATA devices which can be connected to a single controller, while reducing the amount of cables required to connect an array of SATA devices.

  • Port selectors

Due to this feature two hosts can connect to one drive. Therefore, if one of the hosts fails, the second host will act as a spare, so that access to the storage is maintained. This type of redundancy is essential for video surveillance.

  • Native command queuing

Native command queening is a feature to improve the hard disk performance by reordering the commands sent by the computer to the hard disk drive. Naturally Commands will arrive at a disk to read or write from different locations on the disk. By using SATA I, commands are executed in the order they arrived, while with SATA II drives, an algorithm is used to determine the most efficient order to execute commands. This feature improves systems performance in terms of data transfer speed.

Comparing eSATA with USB.3

Universal serial bus (USB), FireWire and eSATA are the most common methods to connect the external storage devices to your computer. USB 1 can only communicate with printers, mic and keyboards, while using USB 2, connecting to peripherals that stored data is possible like media players, USB flashes and external hard drives. Its transfer rate is 480 Mb/s.

The USB.3 port as the fastest port among Universal Serial Bus interfaces are usually colored blue in new PCs (not always) to differentiate them from older version USB 2.0 ports.

The transfer rate of USB 3.0 is 5 Gb/s, although this throughput is never exactly achieved. Since many devices themselves are not able to reach to that level of throughput, like spinning hard disks.

eSATA has also been considered as a professional interface, since it has been designed to work with hard drives primarily. This is a benefit of eSATA compared to USB, since USB has to be compatible with other functions like mouse, keyboard, charging, etc.

By using eSATA, PC’s motherboard just deals with one drive at a time, while with USB, it deals with multiple devices simultaneously.

eSATA was the fastest interface (1.5 to 6 Gb/s) on PCs, before the appearance of USB 3.0 and thunderbolt (10 Gb/s). It is worth mentioning that the read speed of eSATA is the half of USB 3.0, while write speed in eSATA is twice faster than USB 3.0.

Finally, if data is being transferred from PC to PC, USB 3.0 is more beneficial than eSATA undoubtedly, due to its high speed. If you deal with storage alone, especially for projects connected to a single PC, then eSATA is a winner. It might be faster, even in the cases that other multiple USB drives connected to the PC at the same time. So, eSATA interfaces are more common in TV video recorders.


The need for increased bandwidth, high speed data transfer and feasibility in storage systems, made interfaces to convert from parallel transmission method to serial transmission. Hence, the SATA and SAS interfaces was developed to achieve faster transfer rate. Due to RAID technology and multiple hard disk drives in video recorders, SATA interface is a valid choice for this industry. Since connecting several hard disks to backplane is possible easily