General

Realtime on the Edge

Edge Computing —A Beginner’s Guide

Learn the basics of edge computing and how it is transforming the realtime landscape

Machine Pulse

The Edge

The ‘edge’ refers to computing infrastructure that exists close to the origin sources of data. It is distributed IT architecture and infrastructure where data is processed at the periphery of the network, as close to the originating source as possible.

Edge computing is a method of optimizing cloudcomputing systems by performing data processing at theedge of the network, near the source of the data.

OAS

Living on the Edge

A series of gateway servers sit outside your primary cloud environment, allowing for more localized data processing.

Examples of edge computing can be found throughout our everyday lives — we just may not notice them.

Industrial Internet of Things (IIoT)

  • Wind turbines
  • Magnetic resonance (MR) scanner
  • Undersea blowout preventers
  • Industrial controllers such as SCADA systems
  • Automated industrial machines
  • Smart power grid technology
  • Smart streetlights

Internet of Things (IoT)

  • Motor vehicles (Cars and trucks)
  • Mobile devices
  • Traffic lights
  • Thermostats
  • Home appliances
TechTarget

Edge Computing Benefits

Edge computing allows for the clear scoping of computing resources for optimal processing.

  1. Time-sensitive data can be processed at the point of origin by a localized processor (a device that has its own computing ability).
  2. Intermediary servers can be used to process data in close geographical proximity to the source (this assumes that intermediate latency is okay, though realtime decisions should be made as close to the origin as possible).
  3. Cloud servers can be used to process less time sensitive data or to store data for the longterm. With IoT, you’ll see this manifest in analytics dashboards.
  4. Edge application services significantly decrease the volumes of data that must be moved, the consequent traffic, and the distance the data must travel, thereby reducing transmission costs, shrinking latency, and improving quality of service(QoS) (source).
  5. Edge computing removes a major bottleneck and potential point of failure by de-emphasizing the dependency on the core computing environment.
  6. Security improves as encrypted data is checked as it passes through protected firewalls and other security points, where viruses, compromised data, and active hackers can be caught early on (source).
  7. The edge augments scalability by logically grouping CPU capabilities as needed, saving costs on realtime data transmission.

Why the Edge

Transmitting massive amounts of data is expensive and taxing on network resources. Edge computing allows you to process data near the source and only send relevant data over the network to an intermediate data processor.

For example, a smart refrigerator does not need to continually send internal temperature data back to a cloud analytics dashboard. Rather, it can be configured to only send data when the temperature has changed beyond a particular point; or, it could be polled to send data only when the dashboard is loaded. Similarly, an IoT security camera could only need to send data back to your device when it detects motion or when you explicitly toggle a live data feed.

Devise Relationship Management (DRM)

To manage edge devices, device relationship management (DRM) refers to the monitoring and maintenance of complex, intelligent, and interconnected equipment over the internet. DRM is specifically designed to interface with the microprocessors and local software in IoT devices.

Device relationship management (DRM) is enterprise software that enables the monitoring, managing, and servicing of intelligent devices over the Internet.

TechTarget

The Fog

Between the edge and cloud is the fog layer, which helps bridge the connections between edge devices and cloud data centers. According to Matt Newton of Opto 22:

Fog computing pushes intelligence down to the local area network level of network architecture, processing data in a fog node or IoT gateway.

Edge computing pushes the intelligence, processing power and communication capabilities of an edge gateway or appliance directly into devices like programmable automation controllers (PACs).

Energomonitor

Edge and Realtime

Sensors and remotely deployed devices demand realtime processing. A centralized cloud system is often too slow for this, especially when decisions need to be made in microseconds. This is especially true for IoT devices in regions or locations with poor connectivity.

However, sometimes realtime capabilities demand cloud processing. For example, lets say data consumed by remote tornado weather monitors needs to be sent in realtime to massive supercomputers.

This is where realtime infrastructure comes into play to help enable those data transactions.

PubNub.com

build versus buy guide and process for developers to choose software

The 6 Step Build vs Buy Model for Developers

Defining a process for objectively selecting homegrown or purchased solutions

For almost every functional or architectural application component, there are a plethora of ‘as a service’ offerings. We see infrastructure as a service (IaaS), backend as a service (BaaS), SaaS, PaaS.. and a new ‘aaS’ seems to be added daily.

What do all these services have in common? Well, they aspirationally promise to give you, the engineer, (1) more freedom to focus on your core product, (2) faster time to market, and (3) production-ready solutions for complex and repeatable engineering operations.

Sometimes this is case. Sometimes it isn’t. This purpose of this guide is to provide a rational set of objective criteria to assess whether you should build or buy a particular service.

What is build? What is buy?

Build does not necessarily mean that you are making something from scratch. It means that you are combining custom code, open source libraries, and individual/community expertise to construct a solution for your use case. This solution is something that you will design, build, run, maintain, and scale internally.

On the other hand, buy does not necessarily mean that you are purchasing an end-to-end, out-of-the-box solution for your use case. It more accurately represents the purchase of a defined service that adds near-immediate value to your use case. Typically, the viability of the service itself will be guaranteed by the seller and you will not need to design and build the service itself. However, depending on the type of service purchased, you may choose to run and scale it internally. Generally, you will offload the running, maintenance, and scalability to the seller.

The Developer Mind

Before we continue, let’s reset our frame of mind.

Many developers have strong egos, and that’s generally an empowering attribute. Strong egos give devs the confidence to power through complex obstacles, focus for days and weeks at a time, and cultivate entirely new industries. However, there’s a fine line between reasonable and unreasonable confidence.

“I can build ____ in ____ days!”
“Ha! I can build a better ____ in a weekend!”
“This is so expensive. I’m just going to build it.”

We frequently see and hear these comments on dev forums, aggregators like Reddit and HackerNews, and in our day-to-day interactions. If we don’t say it, then some of us probably think it from time to time. Hey, sometimes we’re probably right, but often times, our initial ego-driven reaction distances us from the objective criteria we apply to our general practice of programming.

When assessing what to build vs buy, or which ratio we choose, it is critical that we reset our frame of mind and approach our solutioning as open-minded and objectively as possible. Excluding the purists, no one cares if we were able to build our product from scratch or if we cleverly integrated a series of purchased solutions together. What people care about is if our product works and delivers exceptional value to customers.

With the build vs buy decision-making process, we will answer the question: “How do we deliver exceptional value to our customers quickly, efficiently, and prudently?”

Build vs Buy Decision-Making Model

build versus buy guide and process for developers to choose software

Step 1 – Identify and categorize your product’s functional scope

Your team has been tasked with building an ecommerce platform that allows users to upvote and downvote products. So, what are your product’s functional and architectural features?

Functional

  • Marketplace service
  • Voting service
  • Product display service
  • Inventory management service
  • Transaction service
  • Buyer, seller, and admin account management service
  • Search, filter, refine service

Architectural and Process

  • Databases
  • Servers
  • Load Balancers
  • Dev Environment / Version Control
  • Continuous Integration / Delivery Pipeline
  • REST / Realtime APIs
  • Frontend Framework
  • Deployment Controls / AB Testing

While these are not comprehensive feature sets, the important point is that there is a clear distinction between core product features (marketplace, voting), and necessary system & process architecture (server environment, CI/CD pipeline). There are features that are proprietary and unique to your product, and there are architectural features that are found in almost every modern application system.

Your job is to identify which of these features are proprietary to your platform and which are replicable proven solutions. To do this, ask the following questions:

  • What are the proprietary, core features that make my application unique?
  • What architectural services do I need for my platform scaffolding?
  • What is my ideal development pipeline going to look like?

Keep in mind, we are not solutioning yet or deciding what to build vs buy. We are identifying and categorizing our product’s functionality.

Step 2 – Define the scope of work and reconcile against constraints

Based on your feature categorization in step 1, it is time to define the scope of work to build each feature.

First, itemize and prioritize the detailed functionality for each feature:

  • What is the minimum functional scope for the feature to be viable?
  • What is the ideal functional scope for the feature?
  • Is this a feature I need now? Or can it wait?

Second, for each feature, answer the following build questions for the minimum and ideal functional scope:

  • How many developer resources do I have available to build this feature? Maintain this feature?
  • Can I harness any domain experts to help design this feature?
  • Has anyone on my team built this before?
  • How much time to design (A), build (B), test (C), deploy (D), maintain (E) this feature?
  • Will building this divert resources from something else?
  • Do I need to hire additional resources? If so, what is the cost breakdown?
  • What is the infrastructure cost to run this internally?

Third, for each core feature, answer the following buy questions for the minimum and ideal functional scope:

  • What is my monthly budget for this service?
  • How do I anticipate my budget changing over time?
  • Can I harness any domain experts to help me assess the best solution?
  • What developer resources do I have available to integrate and configure the solution?
  • If applicable, will I have the resources to self-host, run, maintain, and scale the service?

Step 3 – Solution divergence

Now we can get to the good stuff! In this step, we are not deciding what to build or buy; rather, we are aggregating an inventory of choices.

First, scour the interwebs, get referrals, and assess the solution ecosystem. Have other teams built this successfully? Have they bought it successfully? What are the horror and success stories?

Second, create a build vs buy comparison matrix. Make sure to note the monthly, infrastructure, and long-term maintenance costs. Note the total upfront and ongoing time needed for each build or buy solution (having build/buy hybrids are great too!).

Step 4 – Solution convergence

Start narrowing down your options.

Remember that buying does not mean out-of-the-box instant magic. There are always build costs associated with buying:

  • Sandboxing and initial technical vetting
  • Integration and setup
  • Configuration and fine tuning
  • Operational training and staff onboarding

Similarly, building does not necessarily mean that everything is made from scratch, but it does mean that you will assume the costs of ongoing maintenance, scaling, and debugging. You will also need to train staff and develop new operational processes.

Step 5 – Build or buy or both

Choose a primary and secondary solution option for each feature. This way, you will have a backup plan if the primary solution does not pan out. It is absolutely critical that you involve your team during the selection process and make the selection criteria transparent.

Step 6 – Develop guidelines for reassessment

The solution that you’ve selected for day 1 of your product will likely not fit your product at day 600. This is okay, but we must be able to anticipate and preempt any future scaling issues. To do this, set both quantitative and qualitative benchmarks for triggering a build vs buy scaling reassessment. For example, we’re confident that our current architectural solution allows us to handle up to 500k concurrent connections with ease, but our current growth model forecasts 2m connections in 8 months. When we start to near the 300k mark, then this will trigger another build vs buy assessment so we can preempt any issues at scale. This reassessment should include:

  • What have we learned about the needs of our product in the past X months?
  • What has been more difficult than anticipated? What has been easier?
  • How has our resource and knowledge pool shifted?
  • Have our product’s core competencies shifted?
  • Is there anything new and better out there?

Final Thoughts – Try It Your Way

Well, this looks like a lot of work. It may even take a day or multiple days to assess a feature. But realistically, when we take into account the full lifecycle of your product, a few upfront days can save you months and lots of money down the road. Those few days may also make or break your product.

Customize your build vs buy assessment process to meet your organization’s needs. Though a large enterprise is way different than a startup, the assessment metrics remain very similar. Add or remove metrics, codify a more refined process, or make your own from scratch.

Either way, it is important to remember that building a successful product is very hard, so don’t make it harder on yourself than necessary. Let your decision be driven by choosing the right solution for your product, rather than the right solution for you.

The Developer’s Guide to Building vs Buying Services

Defining a process for objectively selecting homegrown or purchased solutions

For almost every functional or architectural application component, there are a plethora of ‘as a service’ offerings. We see infrastructure as a service (IaaS), backend as a service (BaaS), SaaS, PaaS.. and a new ‘aaS’ seems to be added daily.

What do all these services have in common? Well, they aspirationally promise to give you, the engineer, (1) more freedom to focus on your core product, (2) faster time to market, and (3) production-ready solutions for complex and repeatable engineering operations.

Sometimes this is case. Sometimes it isn’t. This purpose of this guide is to provide a rational set of objective criteria to assess whether you should build or buy a particular service.

What is build? What is buy?

Build does not necessarily mean that you are making something from scratch. It means that you are combining custom code, open source libraries, and individual/community expertise to construct a solution for your use case. This solution is something that you will design, build, run, maintain, and scale internally.

On the other hand, buy does not necessarily mean that you are purchasing an end-to-end, out-of-the-box solution for your use case. It more accurately represents the purchase of a defined service that adds near-immediate value to your use case. Typically, the viability of the service itself will be guaranteed by the seller and you will not need to design and build the service itself. However, depending on the type of service purchased, you may choose to run and scale it internally. Generally, you will offload the running, maintenance, and scalability to the seller.

The Developer Mind

Before we continue, let’s reset our frame of mind.

Many developers have strong egos, and that’s generally an empowering attribute. Strong egos give devs the confidence to power through complex obstacles, focus for days and weeks at a time, and cultivate entirely new industries. However, there’s a fine line between reasonable and unreasonable confidence.

“I can build ____ in ____ days!”
“Ha! I can build a better ____ in a weekend!”
“This is so expensive. I’m just going to build it.”

We frequently see and hear these comments on dev forums, aggregators like Reddit and HackerNews, and in our day-to-day interactions. If we don’t say it, then some of us probably think it from time to time. Hey, sometimes we’re probably right, but often times, our initial ego-driven reaction distances us from the objective criteria we apply to our general practice of programming.

When assessing what to build vs buy, or which ratio we choose, it is critical that we reset our frame of mind and approach our solutioning as open-minded and objectively as possible. Excluding the purists, no one cares if we were able to build our product from scratch or if we cleverly integrated a series of purchased solutions together. What people care about is if our product works and delivers exceptional value to customers.

With the build vs buy decision-making process, we will answer the question: “How do we deliver exceptional value to our customers quickly, efficiently, and prudently?”

Build vs Buy Decision-Making Model

build versus buy guide and process for developers to choose software

Step 1 – Identify and categorize your product’s functional scope

Your team has been tasked with building an ecommerce platform that allows users to upvote and downvote products. So, what are your product’s functional and architectural features?

Functional

  • Marketplace service
  • Voting service
  • Product display service
  • Inventory management service
  • Transaction service
  • Buyer, seller, and admin account management service
  • Search, filter, refine service

Architectural and Process

  • Databases
  • Servers
  • Load Balancers
  • Dev Environment / Version Control
  • Continuous Integration / Delivery Pipeline
  • REST / Realtime APIs
  • Frontend Framework
  • Deployment Controls / AB Testing

While these are not comprehensive feature sets, the important point is that there is a clear distinction between core product features (marketplace, voting), and necessary system & process architecture (server environment, CI/CD pipeline). There are features that are proprietary and unique to your product, and there are architectural features that are found in almost every modern application system.

Your job is to identify which of these features are proprietary to your platform and which are replicable proven solutions. To do this, ask the following questions:

  • What are the proprietary, core features that make my application unique?
  • What architectural services do I need for my platform scaffolding?
  • What is my ideal development pipeline going to look like?

Keep in mind, we are not solutioning yet or deciding what to build vs buy. We are identifying and categorizing our product’s functionality.

Step 2 – Define the scope of work and reconcile against constraints

Based on your feature categorization in step 1, it is time to define the scope of work to build each feature.

First, itemize and prioritize the detailed functionality for each feature:

  • What is the minimum functional scope for the feature to be viable?
  • What is the ideal functional scope for the feature?
  • Is this a feature I need now? Or can it wait?

Second, for each feature, answer the following build questions for the minimum and ideal functional scope:

  • How many developer resources do I have available to build this feature? Maintain this feature?
  • Can I harness any domain experts to help design this feature?
  • Has anyone on my team built this before?
  • How much time to design (A), build (B), test (C), deploy (D), maintain (E) this feature?
  • Will building this divert resources from something else?
  • Do I need to hire additional resources? If so, what is the cost breakdown?
  • What is the infrastructure cost to run this internally?

Third, for each core feature, answer the following buy questions for the minimum and ideal functional scope:

  • What is my monthly budget for this service?
  • How do I anticipate my budget changing over time?
  • Can I harness any domain experts to help me assess the best solution?
  • What developer resources do I have available to integrate and configure the solution?
  • If applicable, will I have the resources to self-host, run, maintain, and scale the service?

Step 3 – Solution divergence

Now we can get to the good stuff! In this step, we are not deciding what to build or buy; rather, we are aggregating an inventory of choices.

First, scour the interwebs, get referrals, and assess the solution ecosystem. Have other teams built this successfully? Have they bought it successfully? What are the horror and success stories?

Second, create a build vs buy comparison matrix. Make sure to note the monthly, infrastructure, and long-term maintenance costs. Note the total upfront and ongoing time needed for each build or buy solution (having build/buy hybrids are great too!).

Step 4 – Solution convergence

Start narrowing down your options.

Remember that buying does not mean out-of-the-box instant magic. There are always build costs associated with buying:

  • Sandboxing and initial technical vetting
  • Integration and setup
  • Configuration and fine tuning
  • Operational training and staff onboarding

Similarly, building does not necessarily mean that everything is made from scratch, but it does mean that you will assume the costs of ongoing maintenance, scaling, and debugging. You will also need to train staff and develop new operational processes.

Step 5 – Build or buy or both

Choose a primary and secondary solution option for each feature. This way, you will have a backup plan if the primary solution does not pan out. It is absolutely critical that you involve your team during the selection process and make the selection criteria transparent.

Step 6 – Develop guidelines for reassessment

The solution that you’ve selected for day 1 of your product will likely not fit your product at day 600. This is okay, but we must be able to anticipate and preempt any future scaling issues. To do this, set both quantitative and qualitative benchmarks for triggering a build vs buy scaling reassessment. For example, we’re confident that our current architectural solution allows us to handle up to 500k concurrent connections with ease, but our current growth model forecasts 2m connections in 8 months. When we start to near the 300k mark, then this will trigger another build vs buy assessment so we can preempt any issues at scale. This reassessment should include:

  • What have we learned about the needs of our product in the past X months?
  • What has been more difficult than anticipated? What has been easier?
  • How has our resource and knowledge pool shifted?
  • Have our product’s core competencies shifted?
  • Is there anything new and better out there?

Final Thoughts – Try It Your Way

Well, this looks like a lot of work. It may even take a day or multiple days to assess a feature. But realistically, when we take into account the full lifecycle of your product, a few upfront days can save you months and lots of money down the road. Those few days may also make or break your product.

Customize your build vs buy assessment process to meet your organization’s needs. Though a large enterprise is way different than a startup, the assessment metrics remain very similar. Add or remove metrics, codify a more refined process, or make your own from scratch.

Either way, it is important to remember that building a successful product is very hard, so don’t make it harder on yourself than necessary. Let your decision be driven by choosing the right solution for your product, rather than the right solution for you.