Hardware:

Mobile Chipsets: Xenion Architecture

Xenion Renegade Architecture Gen 5, or the XR5 series, is Hydron's mobile platform processors/chipsets for M5 series devices, the latest be the all new and powerful XR5S, and its non-pro model XR5, and budget model XR5B, with its predecessor Gen 4 Architecture for the XR4 series, and then its future successor XR6 Series, which is early testing of the XR6A.

Fenton Xenion is a budget architecture that is 4nm for all chips currently, while not the most powerful and certainly not even matched to our performance, it completely destroys other phones in the same price range of 350-500$ USD, and its GPU is the same, more powerful than ever.

Gen 5 Features:

Gen 5 Xenion Renegade Architecture will be the most powerful mobile chipset of the decade (other than future gen's), it will have excessive better efficiency, and heat absorption, using the new layout and redesigned internals of the M5 Series, It will also have brand new ray tracing acceleration units, and a lot more, with more efficient battery usage, less than the M4, and still carries more power. With improved data transfer rates and higher core and thread count, along with new gen NPUs for AI workloads.

The XR5 architecture will also be smaller, and thinner, for more room for the new DXR2 Ram coming out next year. And room for more cooling. It will have more stability software and fail safes to prevent crashing, instability, and more stability on heavy loads, still sustaining temperature.

Zenton Architecture Gen 1 Features:

The Zenton Architecture is a specially designed architecture for the A-Series of Hydron phones, offering lower performance then standard XR (Xenion Renegade) architecture, but much more performance than any other phone. Offering superior load times and gaming performance than any other phone. With specialized RT capabilities and powerful GPUs.

Fenton Xenion Generation 1 Features:

The Fenton Xenion architecture marks a new era of budget devices, offering superior performance to any phone in its price range, while offering a powerful CPU and GPU combo for any time, capable of beating the latest high end SoCs even at its price range.

Gen 4 Features:

Gen 4 Xenion Renegade Architecture is Hydron’s most refined mobile chip foundation yet — built to deliver ultra-smooth performance, advanced AI, and console-level graphics in any Hydron device. With enhanced ray tracing and a new custom frame generation engine, XR4 delivers deeper realism and higher frame stability across demanding apps and games.

It’s fully optimized to work across all major operating systems — including HydronOS, Android, Linux, and iOS variants — as long as it's inside a certified Hydron device. Its modular design ensures smooth integration with EcoLiNK, AI assistants, and next-gen multitasking, making XR4 the perfect balance of power, efficiency, and flexibility.

Gen 3 Features:

Gen 3 Xenion Renegade Architecture (XR3 Series) marked a major step forward from the XR2, bringing significantly improved ray tracing capabilities, better thermal control, and enhanced efficiency across all tasks. With newly designed ray tracing nodes, XR3 delivers smoother lighting and reflections, especially noticeable in gaming and AR workloads — outperforming anything found in the M2 series.

This generation introduced a smarter cooling layout, allowing devices to stay cooler under sustained heavy use without compromising performance. Paired with better power management and optimized OS integration, XR3 offered a major uplift in real-world speed, responsiveness, and multitasking on all supported Hydron platforms.

Gen 2 (Original Generation) features:

Gen 2 Xenion Renegade Architecture (XR2 Series) brought Hydron’s early ambitions into reality — stabilizing and refining the raw power introduced in the original HySnap Gen 1 chipset. While based on an older architecture by today’s standards, XR2 still delivered strong ray tracing performance that outpaced most competitors at the time, setting new standards for mobile visuals.

Compared to the unstable, experimental chip in the original M1 Concept, XR2 offered far greater stability, cooler thermals, and a more balanced performance curve. With more cores than typical smartphone processors and better system integration, it was the first widely deployed Xenion chip that proved Hydron's mobile chips weren’t just powerful — they were built to last.

Gen 1 HySnap Chipset Xenion Entry Features: (HXE1)

HySnap Xenion Entry (HXE) Gen 1 Chipset was Hydron’s bold first step into custom silicon — a raw, unrefined powerhouse that pushed mobile performance into uncharted territory. Designed for sheer benchmark dominance, the HXE chip packed impressive compute capabilities for its time, delivering shockingly high scores and fluid performance in short bursts.

However, its early design came with major trade-offs: notoriously unstable under sustained load, high thermal output, and limited efficiency controls. Despite these flaws, HXE laid the critical foundation for what would become the Xenion Renegade Architecture, introducing Hydron’s commitment to performance-first design. It was chaotic, experimental — and the origin of everything that followed.

Official Processor Specs: (Mobile)

Based off estimated performance, from top-worst. (Ignoring Stability Issues)

QHC1

Devices: HydronHome 1 Addon + 7,500.00 USD

126 Qauntum Cores

248 Threads

156 NPUs

First Gen 1 Qauntum Chip, based off Xenion Renegade Architecture.

HXR4 Max

Devices: HydronHome 1

68 Cores

134 Threads

128 NPUs

Larger and more powerful variant of the the XR4S, built for workstations.

XPXT

Devices: HyBook 2 Pro

32 Cores

64 Threads

108 NPUs

3.7GHz base, 6.3GHz turbo, a ultra-top-end chip for the end of the world, and any blender simulations with a atrocity of a GPU, ready for anything.

XR5C

Devices: T4

40 Cores

80 Threads

80 Enhanced NPUs

Pure Power of a tablet, nothing messes with it, unless its us.

XPX

Devices: HyBook 2 Pro

24 Cores

48 Threads

96 NPUs

3.5GHz base, 6.1GHz turbo, expert ultra-end chip for anything, with a GPU that excels in 6K+ editing or heavy gaming with low TDP.

XP1T

Devices: HyBook 2, HyBook 2A

20 Cores

40 Threads

82 NPUs

3.4GHz base, 5.9GHz turbo, high end SoC with expert efficiency, with a high end dedicated GPU built in.

XP1S

Devices: HyBook 2, HyBook 2A

16 Cores

32 Threads

64 NPUs

3.2GHz Base, 5.7GHz turbo, enhanced super version of the XP1 SoC, with a stronger dedicated GPU.

XR5S

Devices: M5 Pro

32 Cores

82 Threads

72 Enhanced NPUs

More and redesigned RT cores, better cooling system, less power consumption, much more stable and efficient, with new AI nodes, with smaller size for more room of components.

XR4T

Devices: T3

34 Cores

64 Threads

68 NPUs

New Gen 4 XR architecture for tablets, increased thermals but much more powerful, and faster, and more efficient in power saving modes.

XP1

Devices: HyBook 2

12 Cores

24 Threads

48 NPUs

2.9GHz Base, 5.4GHz turbo, a medium end chip that runs cool, very cool, with expert intergrated graphics, with ray tracing!

XS1

Devices: HydronShift 2

16 Cores

32 Threads

5.7GHz Boost, a High end proccesor thats cool and efficent, made for mobile devices.

XR5

Devices: M5 Base Model, Hydron Slim 2

30 Cores

66 Threads

70 Enhanced NPUs

Brand new RT cores, better cooling and smaller size, with less power Intake. With newly redesigned AI nodes for the NPUs.

XR5BS

Devices: B5 Pro

28 Cores

64 Threads

70 NPUs

Faster clocks and more cache than the base XR5B.

XR4S

Devices: M4 Pro, Hydron Double Fold 1, Hydron Fold Max 1.

28 Cores

62 Threads

68 NPUs

New Efficiency Generation 4 Architecture, with better ray tracing and heat resistance and absorption.

XR5B

Devices: B5

28 Cores

64 Threads

70 Enhanced NPUs

Better RT cores, new architecture with better heat management and overall faster than last gen. (Gen 4)

XR4

Devices: M4 Base Model,  Hydron Double Fold 1, Hydron Slim 1.

25 Cores

56 Threads

64 NPUs

Enhanced ray tracing, and AI work compared to its predecessor XR3 series (Gen 3), with better heat resistance and better performance in all categories.

XR4F

Devices: M4 FE

24 Cores

48 Threads

60 NPUs

Slightly slower but still extremly fast version of the XR4, especially made for the M4 FE componets, it packs a punch for its price, which is 2000$ less than the base model M4, with all the features.

XP1BS

Devices: HyBook 2B

8 Cores

12 Threads

24 NPUs

4.5GHz max, 5.0GHz turbo, with great preformance and good speeds, this thing is too advanced for even budget consumers, but have it as you wish! With elite preformance.

XP1B

Devices: HyBook 2B

8 Cores

12 Threads

18 NPUs

4.3GHz max, 4.8GHz turbo, perfect for budget consumers, very cool with maximum preformance.

XR4G+

Devices: G1-S

24 Cores

56 Threads

56 NPUs

The ultimate gaming SoC, enhanced RT cores, optimized for games, but poor at everything else.

XR4G

Devices: G1

16 Cores

32 Threads

48 NPUs

Optimized gaming SoC, powerful for gaming, enhanced, but poor at everything else.

XR4B

Devices: B4

22 Cores

40 Threads

54 NPUs

Budget Version of the orginal XR4, still better than its last generation super model, (XR3S) in some categories.

Z1S

Devices: A1 Pro

Enhanced Octa-Core (8 Cores)

16 Threads

38 NPUs

Superior SoC to most, crushing all phones in this price tag. Offering up to 45% more preformance than a Z1.

XR3S

Devices: M3 Pro

20 Cores

42 Threads

48 NPUs

Gen 3 architecture is built for raw power, shredding predecessors, with great ray tracing and AI and gaming capabilities for 2025, even as a older model.

XR4MX

Devices: EcoLiNK 2 Supreme

16 Cores

32 Threads

32 NPUs

Supreme watch Proccesor, ready for anything, with ray tracing capabilities and great graphics, based off Xenion Renegade Architecture Gen 4.

Z1

Devices: A1

Octa-Core (8 Cores)

16 Threads

36 NPUs

A powerful proccesor for general users, fast and efficient, with raw power.

XR4M

Devices: EcoLiNK 2

12 Cores

24 Threads

24 NPUs

Great watch proccesor, with great capabilities and superior preformance to any watch.

XR3

Devices: M3 Base Model

18 Cores

38 Threads

44 NPUs

Older Gen Architecture with decent capabilities, showing its age however, still smashes most chipsets in other phones, built for raw power just like its super version.

XR3B

Devices: B3, Concept MA.

16 Cores

30 Threads

36 NPUs

Older Generation Budget XR3, still a great proccesor and very fast, however comes with downsides of aged ray tracing, and older architecture, which could cause heat issues later.

XR2S

Devices: M2 Pro

16 Cores

32 Threads

36 NPUs

Older Generation Architecture, may have heat issues, with first generation Hydron ray tracing, still capable today.

XR2

Devices: M2 Base Model

14 Cores

28 Threads

30 NPUs

First-Gen Ray tracing, with older architecture, poor heat management, still capable today, however not recommended to stress.

XR2B

Devices: B2

12 Cores

26 Threads

24 NPUs

Very slow today with poor heat management, high power usage, heat issues, and very slow for Hydron, still better compared to its predecessors, and most importantly; a lot more stable.

XR1

Devices: M1 Reimagined

12 Cores

24 Threads

38 NPUs

Newer Gen Budget Proccesor, unlike the Hydran M1, it is not unstable, extremely better heat, and simply better in preformance.

FX1S

Devices: S1 Ultra

8 Cores

12 Threads

36 NPUs

Upgraded Proccesor compared to the FX1, with 35% better preformance and much faster with its GPU, destroys other phones in price range.

HXE1

Devices: M1 Concept

12 Cores

24 Threads

20 NPUs

Heat issues, fried after 1 year use, slow, and overheats easily, recommended to not use after 1.5 years of use, first generation architecture for Hydron Mobile Chips, built the foundation.

HXE1B

Devices: B1 Concept

10 Cores

22 Threads

18 NPUs

First Hydron Budget Proccesor, unstable, heat issues, fried, and poor airflow design, with older architecture.

FX1

Devices: S1

6 Cores

12 Threads

32 NPUs

Budget Proccesor, shambles compared to other Hydron proccesors but compared to other budget phones in price range it crushes it, with intense power and low draw for every day use.

Desktop Architecture:

GPU Architecture:

Xacta:

Xacta is the last say for GPU architecture, deserving nothing but dominance, on the most advanced chips and GPUs, this has fast shaders, and up to 4x as much performance than CaneHail, however needs a memory bus bigger than 128 for it to be on GPU.

CaneHail: 

CaneHail Architecture is the most advanced architecture Hydron has ever made for basic consumers, seen in the GRX: Destroyer, GRX 2150, FRX 2150.

It has better cooling and a thinner NM process than CaneDrail, which was 4nm, and CaneHail is 3nm.

It has 1.73x the performance of RT cores and better rasterization by 43%, while CaneDrail lacked thermals also, CaneHail is incredibly better at heat performance, offering 47% better thermals and less throttling.

CaneDrail:

CaneDrail Architecture was a significant improvement over Achilles Quest architecture, used in the GRX 2000 series, the unrealesed 2050 and 2000, both lacking RT performance and rasterization.

CaneDrail has 29% better RT cores than Achilles Quest, and 21% better rasterization.

Achilles Quest:

Achilles Quest is Hydrons first launch into GPUs, it had terrible RT performance and rendering, and terrible heat, no need to say anything else, but it did launch Hydron's first GPU unreleased series, GRX 2000 and GRX 2050, and BRX 1640 (discontinued)

CPU Architecture:

Achilles Max:

Achilles Max is a the first attempt into CPUs, with assist from AMD, we made master of CPUs, usually their sockets are AM5 and we made these CPUs for raw performance, and efficiency.

Most of these CPUs have great thermal efficiency, and master most companies first attempt into the CPU market, us making remarkable breakthroughs. The max memory for all CPUs of this is 9.512TB, though many CPUs have limits., DXR2 in the future up to 11533 MHz of DDR5 also, and same max speeds with DXR type memory.