Next-generation memory 1 million times faster than flash memory !
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 V-memory

The Next Generation Memory

Next-generation memory semiconductor, 1 million times faeter

Over 1 a million times faster than flash memory.

Next – generation semiconductor memory with iong life V-memory Co. technology is…

The core technology of 5G, autonomous driving, big data 4th industrial revoluttion.

V-memory Necessity

1 million times faeter V-memory

Traditional flash memory technologies show the limitations of aggregation due to the drawbacks of low speed and short life span due to recent miniaturization and stubbornness. As 5G technology has been commercialized since 2019, memory speed of mobile devices is urgently required. Accordingly, IDM companies Samsung and Toshiba are developing technologies that improve flash memory speed. Also, research on next-generation non-volatile memory technologies such as storage memory, magnetic memory, and phase-change memory that can replace existing flash memory technologies is underway worldwide. However, these next-generation volatile memory technologies have disadvantages of high power consumption or complex device structures, and do not significantly improve device speed.

V-memory Next-generation memory semiconductor

[Preparation for existing flash memory]

Speed : 1 million times
Lifetime : Semi-permanent
Data preservation : semi-permanent
Structure : 50% simple structure

V-memory

 

Market Size 

Global memory semiconductor market trend

annual the growth rate of about 13.8%.

World Semiconductor Market: $608 Bills Expected
World Memory Semiconductor Market: $ 250 Bills Expected

 

 

Smartphone consumption in the Middle East and North Africa is rapidly increasing

Active support for infrastructure and system maintenance for self-driving cars in many countries

Data center expansion due to increased use of cloud services

 

 

 

V-memory

Technique

V-MEMORY TECHNOLOGY NOT ONLY OVERCOMES THE CHALLENGES OF NEXT-GENERATION NON-VOLATILE MEMORY TECHNOLOGIES, BUT ALSO INCREASES THE INTEGRATION LIMIT OF EXISTING FLASH MEMORY PROCESSING TECHNOLOGIES.

V-memory

Manufacturing Process

V-memory has a simple structure compared to flash memory.

Reduce manufacturing costs (30% or more)

V-memory can be created using the flash memory production line as it is.

V-memory

Growth Strategy

4th Industrial Revolution: Fast and long-lived semiconductors are needed.

Flash memory size: reduced to current limit (increased manufacturing costs)

Need next-generation semiconductors with high semiconductor performance and reduced manufacturing costs

Shutdown strategy: Technical cost as much as the process cost saved by V-memory technology support

Eco-friendly, High-efficiency Thermoelectric semiconductors

V-ET

V-ET.

Eco-Friendly High-Efficiency Thermoelectric Semiconductor Technology

Environmentally friendly thermoelectric devices that do not emit pollutants

V-ET
V-memory Eco Thermoelectric

The world’s most efficient eco-friendly energy thermoelectric device.

V-ETs capable of solving environmental and economic problems with

the next generation of eco-friendly engines.

V-ET

Characteristics of thermoelectric elements

Reduce ‘Carbon emission’ Eco-Friendly Device

Power generation

Automotive waste heat recovery power generation

Industrial waste heat recovery power generation

Natural heat generation (geothermal, seawater, etc.)

Body heat generation

 

Renewable energy >>> Carbon Reduction

Solid-State Cooling & Heating

Vehicle Air Conditioning System

Battery temperature control

Heating/Cooling system

Small refrigerators

Compact air conditioner

 

Environmental Pollutants X >>> Carbon Reduction

Renewable Energy

Pollution-free electric energy production

Extraction of electrical energy from heat sources

Structure

Production cost reduction through system simplification

Durability

Long system life à Maintenance cost saving

Eco-friendly

Resolution of environmental and economic problems such as pollution, fossil fuel depletion

V-ET

Market Size

“ The global thermoelectric market is expected to grow by 61% ”

Global Thermoelectric market size trend

Market creation scale according to zT (Performance Index)

Currently, the market for thermoelectric cooling is about 2 Billion $ including wine cellars, cosmetic refrigerators, and small refrigerators.

f the average zT level of 1.4~1.5 is secured, the market can be expanded to automobile cooling, heating, and air conditioning systems, expected to 24 Billion $.

V-ET 

Thermoelectric

V-ET

Technique

The V-ET, a thermoelectric device developed by V-memory corporation, is an electrical device called V-ET.
It has the world’s best module performance due to its performance that is 20 to 30% higher than current thermoelectric devices.

Improved performance over traditional thermoelectric modules

%

World best efficiency

30% higher efficiency than conventional thermoelectric materials

%

Thermoelectric module with low power consumption

50% reduction of power consumption

%

Thermoelectric module with the fast cooling speed

50% faster cooling speed compared to existing thermoelectric module (zT 1.0) refrigerators

V-ET

Device performance

Estimated domestic consumption

LG Electronics 1million / Year

Hyundai Motor Company 1million / Year

Samsung Electronics 1million / Year

Other various application products 10million /Year

Estimated overseas consumption

German automobile: VW, BMW, Mercedes-Benz 3million/Year

American automobile: Volvo, GM, Toyota 3million/Year

Electronic parts: Haier, GE, Xiaomi, Carrier et al. 10million/Year

V-ET 

Growth Strategy

– Platform business: Technology fee revenue is earned by applying for patents and upgrading devices to provide technologies related to thermoelectric device creation.

– Mass production construction: expansion of process lines and direct production to mass production and delivery

– Development of various applications: small appliances, air conditioning, energy harvesting, wearable devices, etc.

– Product development with V-ET