SVP Technology at Fiserv; large scale system architecture/infrastructure, tech geek, reading, learning, hiking, GeoCaching, ham radio, married, kids
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Massive new dinosaur might be the largest creature to ever roam Earth

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Paleontologists in Argentina have partially uncovered the remains of what is believed to be the largest animal to ever walk the Earth.

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12 hours ago
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Meet Raspberry Silicon: Raspberry Pi Pico now on sale at $4

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Today, we’re launching our first microcontroller-class product: Raspberry Pi Pico. Priced at just $4, it is built on RP2040, a brand-new chip developed right here at Raspberry Pi. Whether you’re looking for a standalone board for deep-embedded development or a companion to your Raspberry Pi computer, or you’re taking your first steps with a microcontroller, this is the board for you.

You can buy your Raspberry Pi Pico today online from one of our Approved Resellers. Or head to your local newsagent, where every copy of this month’s HackSpace magazine comes with a free Pico, as well as plenty of guides and tutorials to help you get started with it. If coronavirus restrictions mean that you can’t get to your newsagent right now, you can grab a subscription and get Pico delivered to your door.

Oops!… We Did It Again

Microcomputers and microcontrollers

Many of our favourite projects, from cucumber sorters to high altitude balloons, connect Raspberry Pi to the physical world: software running on the Raspberry Pi reads sensors, performs computations, talks to the network, and drives actuators. This ability to bridge the worlds of software and hardware has contributed to the enduring popularity of Raspberry Pi computers, with over 37 million units sold to date.

But there are limits: even in its lowest power mode a Raspberry Pi Zero will consume on the order of 100 milliwatts; Raspberry Pi on its own does not support analogue input; and while it is possible to run “bare metal” software on a Raspberry Pi, software running under a general-purpose operating system like Linux is not well suited to low-latency control of individual I/O pins.

Many hobbyist and industrial applications pair a Raspberry Pi with a microcontroller. The Raspberry Pi takes care of heavyweight computation, network access, and storage, while the microcontroller handles analogue input and low-latency I/O and, sometimes, provides a very low-power standby mode.

Until now, we’ve not been able to figure out a way to make a compelling microcontroller-class product of our own. To make the product we really wanted to make, first we had to learn to make our own chips.

Raspberry Si

It seems like every fruit company is making its own silicon these days, and we’re no exception. RP2040 builds on the lessons we’ve learned from using other microcontrollers in our products, from the Sense HAT to Raspberry Pi 400. It’s the result of many years of hard work by our in-house chip team.

RP2040 on a Raspberry Pi Pico

We had three principal design goals for RP2040: high performance, particularly for integer workloads; flexible I/O, to allow us to talk to almost any external device; and of course, low cost, to eliminate barriers to entry. We ended up with an incredibly powerful little chip, cramming all this into a 7 × 7 mm QFN-56 package containing just two square millimetres of 40 nm silicon. RP2040 has:

  • Dual-core Arm Cortex-M0+ @ 133MHz
  • 264KB (remember kilobytes?) of on-chip RAM
  • Support for up to 16MB of off-chip Flash memory via dedicated QSPI bus
  • DMA controller
  • Interpolator and integer divider peripherals
  • 30 GPIO pins, 4 of which can be used as analogue inputs
  • 2 × UARTs, 2 × SPI controllers, and 2 × I2C controllers
  • 16 × PWM channels
  • 1 × USB 1.1 controller and PHY, with host and device support
  • 8 × Raspberry Pi Programmable I/O (PIO) state machines
  • USB mass-storage boot mode with UF2 support, for drag-and-drop programming

And this isn’t just a powerful chip: it’s designed to help you bring every last drop of that power to bear. With six independent banks of RAM, and a fully connected switch at the heart of its bus fabric, you can easily arrange for the cores and DMA engines to run in parallel without contention.

For power users, we provide a complete C SDK, a GCC-based toolchain, and Visual Studio Code integration.

As Cortex-M0+ lacks a floating-point unit, we have commissioned optimised floating-point functions from Mark Owen, author of the popular Qfplib libraries; these are substantially faster than their GCC library equivalents, and are licensed for use on any RP2040-based product.

With two fast cores and and a large amount of on-chip RAM, RP2040 is a great platform for machine learning applications. You can find Pete Warden’s port of Google’s TensorFlow Lite framework here. Look out for more machine learning content over the coming months.

For beginners, and other users who prefer high-level languages, we’ve worked with Damien George, creator of MicroPython, to build a polished port for RP2040; it exposes all of the chip’s hardware features, including our innovative PIO subsystem. And our friend Aivar Annamaa has added RP2040 MicroPython support to the popular Thonny IDE.

Raspberry Pi Pico

Raspberry Pi Pico is designed as our low-cost breakout board for RP2040. It pairs RP2040 with 2MB of Flash memory, and a power supply chip supporting input voltages from 1.8-5.5V. This allows you to power your Pico from a wide variety of sources, including two or three AA cells in series, or a single lithium-ion cell.

Pico provides a single push button, which can be used to enter USB mass-storage mode at boot time and also as a general input, and a single LED. It exposes 26 of the 30 GPIO pins on RP2040, including three of the four analogue inputs, to 0.1”-pitch pads; you can solder headers to these pads or take advantage of their castellated edges to solder Pico directly to a carrier board. Volume customers will be able to buy pre-reeled Pico units: in fact we already supply Pico to our Approved Resellers in this format.

The Pico PCB layout was co-designed with the RP2040 silicon and package, and we’re really pleased with how it turned out: a two-layer PCB with a solid ground plane and a GPIO breakout that “just works”.

A reel of Raspberry Pi Pico boards
Reely good

Whether Raspberry Pi Pico is your first microcontroller or your fifty-first, we can’t wait to see what you do with it.

Raspberry Pi Pico documentation

Our ambition with RP2040 wasn’t just to produce the best chip, but to support that chip with the best documentation. Alasdair Allan, who joined us a year ago, has overseen a colossal effort on the part of the whole engineering team to document every aspect of the design, with simple, easy-to-understand examples to help you get the most out of your Raspberry Pi Pico.

You can find complete documentation for Raspberry Pi Pico, and for RP2040, its SDK and toolchain, here.

Get Started with Raspberry Pi Pico book

To help you get the most of your Pico, why not grab a copy of Get Started with MicroPython on Raspberry Pi Pico by Gareth Halfacree and our very own Ben Everard. It’s ideal for beginners who are new (or new-ish) to making with microcontrollers.

Our colleagues at the Raspberry Pi Foundation have also produced an educational project to help you get started with Raspberry Pi Pico. You can find it here.


Over the last couple of months, we’ve been working with our friends at Adafruit, Arduino, Pimoroni, and Sparkfun to create accessories for Raspberry Pi Pico, and a variety of other boards built on the RP2040 silicon platform. Here are just a few of the products that are available to buy or pre-order today.

Adafruit Feather RP 2040

RP2040 joins the hundreds of boards in the Feather ecosystem with the fully featured Feather RP 2040 board. The 2″ × 0.9″ dev board has USB C, Lipoly battery charging, 4MB of QSPI flash memory, a STEMMA QT I2C connector, and an optional SWD debug port. With plenty of GPIO for use with any FeatherWing, and hundreds of Qwiic/QT/Grove sensors that can plug and play, it’s the fast way to get started.

Feathery goodness

Adafruit ItsyBitsy RP 2040

Need a petite dev board for RP2040? The Itsy Bitsy RP 2040 is positively tiny, but it still has lots of GPIO, 4MB of QSPI flash, boot and reset buttons, a built-in RGB NeoPixel, and even a 5V output logic pin, so it’s perfect for NeoPixel projects!

Small is beautiful

Arduino Nano RP2040 Connect

Arduino joins the RP2040 family with one of its most popular formats: the Arduino Nano. The Arduino Nano RP2040 Connect combines the power of RP2040 with high-quality MEMS sensors (a 9-axis IMU and microphone), a highly efficient power section, a powerful WiFi/Bluetooth module, and the ECC608 crypto chip, enabling anybody to create secure IoT applications with this new microcontroller. The Arduino Nano RP2040 Connect will be available for pre-order in the next few weeks.

Get connected!

Pimoroni PicoSystem

PicoSystem is a tiny and delightful handheld game-making experience based on RP2040. It comes with a simple and fast software library, plus examples to make your mini-gaming dreams happen. Or just plug it into USB and drop the best creations from the Raspberry Pi-verse straight onto the flash drive.

Pixel-pushing pocket-sized playtime

Pimoroni Pico Explorer Base

Pico Explorer offers an embedded electronics environment for educators, engineers, and software people who want to learn hardware with less of the “hard” bit. It offers easy expansion and breakout along with a whole bunch of useful bits.

Go explore!

SparkFun Thing Plus – RP2040

The Thing Plus – RP2040 is a low-cost, high-performance board with flexible digital interfaces featuring Raspberry Pi’s RP2040 microcontroller. Within the Feather-compatible Thing Plus form factor with 18 GPIO pins, the board offers an SD card slot, 16MB (128Mbit) flash memory, a JST single-cell battery connector (with a charging circuit and fuel gauge sensor), an addressable WS2812 RGB LED, JTAG PTH pins, mounting holes, and a Qwiic connector to add devices from SparkFun’s quick-connect I2C ecosystem.

Thing One, or Thing Two?

SparkFun MicroMod RP2040 Processor

The MicroMod RP2040 Processor Board is part of SparkFun’s MicroMod modular interface system. The MicroMod M.2 connector makes it easy to connect your RP2040 Processor Board with the MicroMod carrier board that gives you the inputs and outputs you need for your project.

The Mighty Micro

SparkFun Pro Micro – RP2040

The Pro Micro RP2040 harnesses the capability of RP2040 on a compact development board with the USB functionality that is the hallmark of all SparkFun’s Pro Micro boards. It has a WS2812B addressable LED, boot button, reset button, Qwiic connector, USB-C, and castellated pads.

Go Pro


It’s fair to say we’ve taken the long road to creating Raspberry Pi Pico. Chip development is a complicated business, drawing on the talents of many different people. Here’s an incomplete list of those who have contributed to the RP2040 and Raspberry Pi Pico projects:

Dave Akerman, Sam Alder, Alasdair Allan, Aivar Annamaa, Jonathan Bell, Mike Buffham, Dom Cobley, Steve Cook, Phil Daniell, Russell Davis, Phil Elwell, Ben Everard, Andras Ferencz, Nick Francis, Liam Fraser, Damien George, Richard Gordon, F Trevor Gowen, Gareth Halfacree, David Henly, Kevin Hill, Nick Hollinghurst, Gordon Hollingworth, James Hughes, Tammy Julyan, Jason Julyan, Phil King, Stijn Kuipers, Lestin Liu, Simon Long, Roy Longbottom, Ian Macaulay, Terry Mackown, Jon Matthews, Nellie McKesson, Rod Oldfield, Mark Owen, Mike Parker, David Plowman, Dominic Plunkett, Graham Sanderson, Andrew Scheller, Serge Schneider, Nathan Seidle, Vinaya Puthur Sekar, Mark Sherlock, Martin Sperl, Mike Stimson, Ha Thach, Roger Thornton, Jonathan Welch, Simon West, Jack Willis, Luke Wren, David Wright.

We’d also like to thank our friends at Sony Pencoed and Sony Inazawa, Microtest, and IMEC for their help in bringing these projects to fruition.

Buy your Raspberry Pi Pico from one of our Approved Resellers today, and let us know what you think!


Are you planning to make RP2040 available to customers?

We hope to make RP2040 broadly available in the second quarter of 2021.

The post Meet Raspberry Silicon: Raspberry Pi Pico now on sale at $4 appeared first on Raspberry Pi.

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17 hours ago
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Security firm Malwarebytes was infected by same hackers who hit SolarWinds

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Security firm Malwarebytes was infected by same hackers who hit SolarWinds

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Security firm Malwarebytes said it was breached by the same nation-state-sponsored hackers who compromised a dozen or more US government agencies and private companies.

The attackers are best known for first hacking into Austin, Texas-based SolarWinds, compromising its software-distribution system and using it to infect the networks of customers who used SolarWinds’ network management software. In an online notice, however, Malwarebytes said the attackers used a different vector.

“While Malwarebytes does not use SolarWinds, we, like many other companies were recently targeted by the same threat actor,” the notice stated. “We can confirm the existence of another intrusion vector that works by abusing applications with privileged access to Microsoft Office 365 and Azure environments.”

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A Strong Digital Security Posture Starts with DEM

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A Strong Digital Security Posture Starts with DEM

In my work as a Technical Solution Architect with a background in digital experience monitoring (DEM) and security, I get this question a lot: Now that I’ve invested in DEM, can this technology help my organization improve its security posture?

Time to shed some light on that subject. This blog is not intended to give a deep dive into all configuration possibilities in the ThousandEyes platform, but it is more of an overview of what to think about when deploying digital experience monitoring with security in mind.

Before we can get into the “what” and “how” of DEM for security, let’s first look at what security actually is. This alone can be fuel for a lot of debate, but I’ll stick to the C.I.A. triad: Protecting Confidentiality, Integrity, and Availability.

The C.I.A. triad can be implemented only if you have visibility. Because you can’t control what you can’t see, it stands to reason that you can’t deliver digital experience if you can’t measure it.


This blog is applicable to publishing services on the Internet. Be it your corporate website, an e-banking portal or an e-business API, you are responsible for the confidentiality, integrity and availability of that service. I still notice that when publishing services, many people don’t feel a responsibility beyond their own perimeter; “If my lights are green, I’m happy,” is a common sentiment.

That statement is not really valid anymore (if it ever was). Regardless of who owns the infrastructure, you are still responsible for the experience your users and customers have. In today’s hyper-competitive market, saying “The Internet was down,” isn’t a valid excuse for service impairments.


The first leg of the triad to where DEM comes in is “availability.” Making sure that services can be accessed by authorized parties. The big question is: When is a service, and thus data, actually available? We established that an internal-only view isn’t enough anymore, so what do we really need?

Availability online often starts with the Domain Name System (DNS) translating a user-friendly URL like to an IP address like 2600:9000:2182:6c00:1f:b7eb:e340:93a1 or After DNS is done, a TCP session will be set up from the client to the web server. Both the client’s and the server’s Internet Service Providers leverage Border Gateway Protocol (BGP) to exchange routing and reachability information, allowing the client to access the server.

The website itself might be hosted on a Content Delivery Network (CDN) to offload and protect the original server where the content is hosted. Once the destination is reached, an SSL handshake will be performed to form a secure connection between client and server. Once all of this has been performed, the actual page can be loaded.

In this example, which arguably represents a fairly simplified website, we have BGP, DNS, multiple Internet Service Providers, SSL Certificates, and CDN providers—all of which are external dependencies that make a simple site available. This is in addition to the infrastructure needed to actually host the website. Needless to say, if you want to be in control of availability, you need to monitor this entire digital experience delivery chain. This is where ThousandEyes comes in.

In Figure 1 below, you can see what external monitoring looks like in ThousandEyes. All dependency layers are displayed in a time-correlated manner. Starting with the core of the Internet, BGP. Our BGP monitoring provides all information about reachability, path changes, and updates to global Internet routing. From there, we move to the network layer, creating a hop-by-hop overview of what the Internet looks like for your application—as well as from the locations relevant to your customers. That gives us a global view, correlating application experience with network behavior.

Layers Correlated Over Time
Figure 1. Different layers of testing correlated over time

Now that we have insight into BGP and the network, it’s time to move to the higher layers. Each vantage point will independently perform a DNS lookup and connect to the corresponding server, giving detailed insights into how geo load balancing works (i.e., is DNS performing consistently around the globe and are all HTTP sessions being handled as they should).

The last step is diving into the details of the webpage served. By using a page load or a Selenium transaction, the content and workings of the website itself can be tested and monitored.

Bringing this all together gives us a detailed view about the availability of the services you provide. Not only for the parts you control, but for all dependencies in the delivery chain.

Confidentiality and Integrity

Security, of course, doesn’t stop at availability. A cynic might say that confidentiality, integrity and the Internet will never go hand in hand. While there is some merit to that, the billions of banking transactions that are handled each day beg to differ.

“Integrity” and, with that, “confidentiality” on the Internet starts with BGP and DNS. If somewhere in the world, an adversary is able to influence these cornerstones of the Internet, everything else is lost. Prominent examples, like this attack on Amazon ’s Route 53 DNS service or this BGP issue impacting Cloudflare, show just how vulnerable these components can be.

ThousandEyes will alert your SOC when part of your IP space is announced from a different AS (indicating a BGP leak going on) or if, for example, a domain-to-IP mapping is changed around the globe (catching tampering with DNS as it happens—a common attack that is hard to catch without an external view.)

Checking the S in HTTPS

Another pillar in secure application delivery over the Internet is SSL/TLS. With the rise of Content Delivery Networks and cloud delivered applications, a big portion of key management is moved out of enterprises’ control, increasing the need for external monitoring. If a third party uses a weak cipher, it’s something you want to receive an alert on, as are improperly signed certificates or (nearly) expired ones.

With the comprehensive SSL Monitoring capabilities ThousandEyes implemented late last year, all aspects of SSL can be monitored (shown in Figure 2) . From an availability standpoint, the expiration date is relevant, but from a confidentiality point of view, the use of weak ciphers is more concerning. Should a self-signed certificate or different signing chain appear suddenly somewhere, red flags should go up immediately.. Again, the global reach of ThousandEyes makes this type of visibility possible.

Expired SSL Certificate
Figure 2. An example of ThousandEyes capturing an expired SSL certificate


While digital experience monitoring doesn’t stop a BGP hijack, DNS poisoning attack or other malicious activity from happening, the global visibility that ThousandEyes provides means that these attacks won’t go unnoticed—closing the window of opportunity for bad actors and providing you with clear forensic data of the event. Schedule a demo with our team today to see how ThousandEyes digital experience monitoring helps give you the visibility you need for a secure digital posture.

The post A Strong Digital Security Posture Starts with DEM appeared first on Internet and Cloud Intelligence Blog | ThousandEyes.

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1 day ago
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7 reasons humility is a highly desired leadership trait

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Not all great leaders are humble, but there are reasons this trait is highly sought after, says emotional intelligence expert Harvey Deutschendorf.

When we think of great leaders, humility may not always be the first word we’d use to describe them. Many bigger-than-life executives such as Steve Jobs or Bill Gates would likely be described first as visionary, bold, or charismatic. Yet, if we look more closely, there are also leaders (such as, say, Richard Branson) who are often described as humble and laid-back.

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1 day ago
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CentOS is gone—but RHEL is now free for up to 16 production servers

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Logo for Red Hat.

Enlarge / CentOS used to be the preferred way to get RHEL compatibility at no cost. CentOS is gone now—but Red Hat is extending no-cost options for RHEL further than ever before. (credit: Red Hat / DFCisneros)

Last month, Red Hat caused a lot of consternation in the enthusiast and small business Linux world when it announced the discontinuation of CentOS Linux.

Long-standing tradition—and ambiguity in Red Hat's posted terms—led users to believe that CentOS 8 would be available until 2029, just like the RHEL 8 it was based on. Red Hat's early termination of CentOS 8 in 2021 cut eight of those 10 years away, leaving thousands of users stranded.

CentOS Stream

Red Hat's December announcement of CentOS Stream—which it initially billed as a "replacement" for CentOS Linux—left many users confused about its role in the updated Red Hat ecosystem. This week, Red Hat clarifies the broad strokes as follows:

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