Two Six Technologies – Expertise in Cyber, Mobile, Microelectronics, and Information Operations


Two Six Technologies is a fast-growing technology company that provides products and expertise to national security customers. Two Six offers complete research & development, innovation productization & implementation expertise across cyber, data science, mobile microelectronics & information operations sectors.

An affiliate of global investment firm Carlyle Group purchased capital region tech firms IST Research and Two Six Labs and combined them into one entity.

Human Security

In today’s globalized world, human security faces numerous threats that span national boundaries and threaten its inhabitants in many different ways. They may take form in violent conflicts, natural disasters, persistent poverty, or any combination thereof. They can have far-reaching effects across many aspects of people’s lives, from livelihoods and food supply chains to shelter and dignity – human security offers an alternative approach to traditional notions of national and global security.

Human security has emerged from the efforts of international organizations, particularly nongovernmental organizations (NGOs) and civil society actors. It provides a framework that encompasses multiple aspects of people’s well-being while reflecting their increasing significance within policymaking processes. Human security offers a holistic approach to safeguarding both local communities and global ones, offering protection from individual risks while giving opportunities.

Though widely employed in policy and academic circles, the human security model remains somewhat contentious. Due to its broad application, its interpretation can vary – some have taken to viewing it as an extension of policy axioms “freedom from hunger and freedom from fear.” At the same time, other scholars have focused on specific threats such as those associated with environmental, economic, health, community political and social security.

Since the human security model has taken shape, it has gradually integrated ideas from human rights tradition into it. Both models are committed to upholding individual dignity; however, the human security framework provides more flexibility and issue-specific approaches than its legalistic predecessor.

Non-state actors like NGOs, civilian groups, religious communities and business associations play a vital role in responding to crises as well as contributing to their prevention. Furthermore, they play an essential part in rebuilding and strengthening societies post-crisis.

Human security models are becoming an increasingly valuable way of anticipating and planning for possible future scenarios, particularly given globalization’s rapid pace, the crisis’s amplified effects, and potential tipping points in global environmental change that could soon occur.


Cybersecurity refers to the practice of safeguarding data, computers, and other technology from hacking attacks and other threats. Cybersecurity has become increasingly vital as organizations store and process an unprecedented amount of sensitive and proprietary information on their systems – an unauthorized breach could have devastating results for an organization and its stakeholders. Hackers have also become highly organized, often working for criminal gangs or nation-states.

Cybersecurity technologies have rapidly advanced to address new threats. One example is Security Information and Event Management (SIEM) tools, which collect and analyze computer network data to detect suspicious activities, such as any attacks that might take place on those networks. Today these solutions also include machine learning algorithms for pattern recognition and prediction purposes as well as integration with SOAR systems allowing automatic investigation and resolution without human involvement.

Behavioral biometrics is another valuable cybersecurity tool, using machine learning to identify patterns in user behaviors like typing speed, mouse movements, and navigation. The goal is to create an individual digital fingerprint for each user to safeguard them against hackers or compromise. Though still early, behavioral biometrics hold immense promise for future cyber security measures.

Key to any effective cybersecurity program is being able to respond swiftly and effectively in case of an attack, and this requires having a plan that includes training, crisis nerve centers, and reporting processes in place. Furthermore, it’s vital that partners can provide continuous monitoring alerts of any potential threats that arise.

Finally, using the right tools can significantly strengthen a company’s defenses. SIEM tools can detect and respond to cyberattacks in real-time. In contrast, threat modeling tools help identify vulnerabilities and offer mitigation strategies – protecting from ransomware attacks and social engineering attempts.

Two Six Technologies is an expanding technology company with a strong emphasis on five technical areas central to national security missions, developing and deploying novel products that support national security customers while meeting real-world challenges. They focus on organic growth and selecting acquisition opportunities with unique products or capabilities that fit with their culture, mission, and growth strategy.

Information Operations

Information operations (IO) is the military’s method for creating strategic effects by combining intelligence, operational support, and communications capabilities into one cohesive force multiplier strategy to achieve wartime goals. IO encompasses activities like propaganda, media manipulation, cyber warfare and military deception as well as activities like propaganda. When combined with other military capabilities it can even serve to sever enemy communications, destroy communication facilities or manipulate target audiences – making IO an integral component in creating comprehensive strategies to achieve wartime goals – increasing force multipliers exponentially.

Information Operations (IO) can be an elusive concept, and its definition can change over time. Without an in-depth understanding of IO terminology and definition, comparing competitor capabilities is difficult without precise and clear knowledge of this term. Different countries also may define information operations differently, making comparison even harder; any misalignments and inefficiencies caused by this lack of clarity could contribute to misalignments and inefficiency.

Two Six Technologies is a rapidly-expanding technology company dedicated to serving national security clients with products and expertise in cybersecurity, data analytics, and artificial intelligence. Their goal is to assist their clients with complex challenges by using cutting-edge innovation in cybersecurity, data analytics, and artificial intelligence – they foster an atmosphere of integrity and transparency while offering professional development opportunities to their employees.

Two Six Technologies experienced record growth and results in 2022, including double-digit organic revenue growth and an expanded contract portfolio totaling more than $1 billion. Furthermore, Two Six developed its team and opened new offices throughout the U.S.

Recent acquisitions by IST Research and Two Six Labs further solidify our position as a provider of innovative tech services to national security customers. As one entity, our combined firm will serve intelligence communities, DOD agencies, and other crucial national security customers.

Leadership of this company consists of former Booz Allen Hamilton executives with extensive government and private industry experience. Joe Logue serves as CEO, having previously held executive vice presidency status of Booz Allen’s Defense and Intelligence business; Chief Growth Officer Ryan Paterson and Chief Technology Officer Chris Greamo both hold former Booz Allen positions.

Electronic Systems

Electronics is the application of physics to design, construct, and operate devices that manipulate electrons. As part of electrical engineering, electronics covers microelectronics, nanoelectronics, optoelectronics, and quantum electronics technologies which use electronic devices at microscopic, nanometric, optical and quantum scales, respectively. Engineers utilize highly specialized electron devices known as transistors in this process – engineers can now pack hundreds of these transistors onto a single chip of silicon, forming an integrated circuit that powers either televisions or computers!

Electronic systems can be divided into two basic categories: continuous and discrete. Continuous electronic systems involve input signals with analogous characteristics whose magnitude varies with time period T; output signals also fluctuate over time but only at specific times and instances – known as closed-loop systems.

Electronic systems classified as discrete are those in which input signals take on only one value at any one moment in time, while output values vary at various times and never coincide with that of input signals; such an open loop system.

In the late 1970s, cellular telephone industry growth served as a metaphor for electronics’ rapid progress. This rapid evolution resulted in innovations to materials, computer-aided design tools and manufacturing processes; not to mention creating entirely new design disciplines.

Modern mobile phone design teams include specialists from electrical, mechanical, materials, and manufacturing engineering; computer engineering; software development; and computer-aided design (CAD). Together these multidisciplinary teams have produced innovative products which are more functional, powerful, and compact than ever before.

Predicted is that more of our daily lives will become controlled by electronic systems shortly. Smart connected objects referred to as the Internet of Things (IoT), are expected to become ubiquitous, enabling people to control and communicate with home appliances, cars, medical equipment, aircraft avionics, and even aircraft avionics via these smart IoT objects. This will be made possible thanks to the increasing power and connectivity of electronic systems built around printable sensors such as active touch/gesture sensors/printed processing circuits/organic photovoltaic chargers/batteries/displays.