Khosla Ventures

Light Field Lab, Inc. is a technology startup focused on developing holographic capture display systems. Founded in 2017 and based in San Jose, California, the company creates innovative solutions that generate three-dimensional holographic images that can be viewed from multiple angles without the need for head-mounted devices. Its technology aims to project 3D holograms into living spaces, allowing users to experience immersive visuals that respond dynamically to their viewpoint. Additionally, Light Field Lab offers integrated processing and imaging solutions designed to deliver these visuals over commercial network speeds. The company is also working on a universal application programming interface to facilitate the adaptation of existing content for its holographic displays. With a mission to enable a holographic future, Light Field Lab seeks to unlock new business opportunities across both consumer and enterprise markets.

Developer of drug discovery platform designed for radically accelerating small molecule drug discovery and finding pharmaceutical compounds for medically important targets. The company's technology rapidly analyzes compounds by combining machine learning with DNA-encoded libraries to generate enormous amounts of useful data and parallel biochemical experiments using proprietary artificial intelligence (AI) models, enabling researchers to develop new drugs.

Volta Labs, Inc. is a biotechnology company based in Cambridge, Massachusetts, focused on engineering and developing tools for biological automation. Founded in 2018, the company specializes in creating scalable automation solutions for genetic engineering, aiming to enhance efficiency and precision in biological research and applications.

Developer of drug discovery platform designed for radically accelerating small molecule drug discovery and finding pharmaceutical compounds for medically important targets. The company's technology rapidly analyzes compounds by combining machine learning with DNA-encoded libraries to generate enormous amounts of useful data and parallel biochemical experiments using proprietary artificial intelligence (AI) models, enabling researchers to develop new drugs.

Opentrons is a company focused on developing pipetting robot technology to automate laboratory experiments. By utilizing open-source principles and programming in Python, Opentrons creates automated lab equipment that streamlines various scientific processes. Their product offerings encompass lab robots, workstations, hardware modules, consumables, reagents, and labware, all designed to enhance the efficiency and accuracy of research. This automation helps scientific researchers reduce human error and expedite their experimental workflows, making lab work faster and less labor-intensive.

AREVO, based in Silicon Valley, California, develops technology to enable direct digital additive manufacturing of ultra-strong, lightweight composite parts for end use applications in high volume. With the company's unique combination of breakthrough materials, powerful design/build software, and free motion robotics for the first “true 3D” construction, AREVO is moving beyond prototypes by enabling the design and fabrication of large, mass-produced parts and structures, quickly leading 3D printing into mainstream manufacturing. AREVO provides designers and manufacturers with unprecedented freedom to unlock the unparalleled strength and weight of composite materials for a wide range of consumer and industrial products, and has seen early success manufacturing CFRTP composite parts for OEM customers. With an initial focus on Aerospace, Defense, Consumer Electronics, Transportation, and Consumer Goods, Arevo is poised to optimize additive manufacturing services to OEM’s worldwide.

Kiddom builds technology enabling teachers and learners to unlock their full potential. Teachers are often constrained by limited access to quality tools or mandated use of ineffective tools that do not meet their students’ needs. We believe technology should be utilized to close the achievement gap and level the playing field for all students.

StimScience is an Electroceuticals company that develops all common types of tES including transcranial direct current stimulation, transcranial alternating current stimulation, transcranial random noise stimulation. The company's NeuroMod tXES system allows the user to create any arbitrary waveform for use in tES. StimScience was founded in 2017 and is based in Berkeley, California.

Advanced Chemotherapy Technologies is a healthcare company that is developing breakthrough combination drug-device technologies for treating pancreatic cancer.

AREVO, based in Silicon Valley, California, develops technology to enable direct digital additive manufacturing of ultra-strong, lightweight composite parts for end use applications in high volume. With the company's unique combination of breakthrough materials, powerful design/build software, and free motion robotics for the first “true 3D” construction, AREVO is moving beyond prototypes by enabling the design and fabrication of large, mass-produced parts and structures, quickly leading 3D printing into mainstream manufacturing. AREVO provides designers and manufacturers with unprecedented freedom to unlock the unparalleled strength and weight of composite materials for a wide range of consumer and industrial products, and has seen early success manufacturing CFRTP composite parts for OEM customers. With an initial focus on Aerospace, Defense, Consumer Electronics, Transportation, and Consumer Goods, Arevo is poised to optimize additive manufacturing services to OEM’s worldwide.

Light Field Lab, Inc. is a technology startup focused on developing holographic capture display systems. Founded in 2017 and based in San Jose, California, the company creates innovative solutions that generate three-dimensional holographic images that can be viewed from multiple angles without the need for head-mounted devices. Its technology aims to project 3D holograms into living spaces, allowing users to experience immersive visuals that respond dynamically to their viewpoint. Additionally, Light Field Lab offers integrated processing and imaging solutions designed to deliver these visuals over commercial network speeds. The company is also working on a universal application programming interface to facilitate the adaptation of existing content for its holographic displays. With a mission to enable a holographic future, Light Field Lab seeks to unlock new business opportunities across both consumer and enterprise markets.

Tempo designs and develops a home fitness platform with personal guidance to help users in their training sessions. It features live elite trainers who can help users when they make mistakes. It has built-in three-dimensional sensors that track form, counts reps, and recommend weights. It helps users to improve in real-time. Powered by 3D motion sensors and AI, it analyzes 25 of the body’s essential joints as users work out and gives understood form feedback. Moawia Eldeeb and Joshua Augustin founded it as Pivot in 2015, with its headquarters in San Francisco in California.

StimScience is an Electroceuticals company that develops all common types of tES including transcranial direct current stimulation, transcranial alternating current stimulation, transcranial random noise stimulation. The company's NeuroMod tXES system allows the user to create any arbitrary waveform for use in tES. StimScience was founded in 2017 and is based in Berkeley, California.

Higia Technologies, founded in 2016 and based in Mexico City, has developed EVA, an accessible and non-invasive wearable device aimed at assessing breast cancer risk. The device features tactile sensors that map the surface of the breast and its surrounding areas, enabling women to monitor changes in breast temperature, size, and weight. Equipped with biosensors, EVA continuously collects and analyzes this information, providing users with a reliable tool for tracking their breast health.

Opentrons is a company focused on developing pipetting robot technology to automate laboratory experiments. By utilizing open-source principles and programming in Python, Opentrons creates automated lab equipment that streamlines various scientific processes. Their product offerings encompass lab robots, workstations, hardware modules, consumables, reagents, and labware, all designed to enhance the efficiency and accuracy of research. This automation helps scientific researchers reduce human error and expedite their experimental workflows, making lab work faster and less labor-intensive.

AREVO, based in Silicon Valley, California, develops technology to enable direct digital additive manufacturing of ultra-strong, lightweight composite parts for end use applications in high volume. With the company's unique combination of breakthrough materials, powerful design/build software, and free motion robotics for the first “true 3D” construction, AREVO is moving beyond prototypes by enabling the design and fabrication of large, mass-produced parts and structures, quickly leading 3D printing into mainstream manufacturing. AREVO provides designers and manufacturers with unprecedented freedom to unlock the unparalleled strength and weight of composite materials for a wide range of consumer and industrial products, and has seen early success manufacturing CFRTP composite parts for OEM customers. With an initial focus on Aerospace, Defense, Consumer Electronics, Transportation, and Consumer Goods, Arevo is poised to optimize additive manufacturing services to OEM’s worldwide.

Opentrons is a company focused on developing pipetting robot technology to automate laboratory experiments. By utilizing open-source principles and programming in Python, Opentrons creates automated lab equipment that streamlines various scientific processes. Their product offerings encompass lab robots, workstations, hardware modules, consumables, reagents, and labware, all designed to enhance the efficiency and accuracy of research. This automation helps scientific researchers reduce human error and expedite their experimental workflows, making lab work faster and less labor-intensive.

Opentrons is a company focused on developing pipetting robot technology to automate laboratory experiments. By utilizing open-source principles and programming in Python, Opentrons creates automated lab equipment that streamlines various scientific processes. Their product offerings encompass lab robots, workstations, hardware modules, consumables, reagents, and labware, all designed to enhance the efficiency and accuracy of research. This automation helps scientific researchers reduce human error and expedite their experimental workflows, making lab work faster and less labor-intensive.

Kiddom builds technology enabling teachers and learners to unlock their full potential. Teachers are often constrained by limited access to quality tools or mandated use of ineffective tools that do not meet their students’ needs. We believe technology should be utilized to close the achievement gap and level the playing field for all students.

Light Field Lab, Inc. is a technology startup focused on developing holographic capture display systems. Founded in 2017 and based in San Jose, California, the company creates innovative solutions that generate three-dimensional holographic images that can be viewed from multiple angles without the need for head-mounted devices. Its technology aims to project 3D holograms into living spaces, allowing users to experience immersive visuals that respond dynamically to their viewpoint. Additionally, Light Field Lab offers integrated processing and imaging solutions designed to deliver these visuals over commercial network speeds. The company is also working on a universal application programming interface to facilitate the adaptation of existing content for its holographic displays. With a mission to enable a holographic future, Light Field Lab seeks to unlock new business opportunities across both consumer and enterprise markets.

Ontera develops a hand-held point of use diagnostic platform that examines DNA and RNA, and analytes (proteins, viruses, antibodies, etc) from any life form. Use in human and animal diagnostics, agriculture, food safety testing, environmental monitoring, and more. Our platforms use silicon nanopore chips and proprietary biochemistry to accurately detect and differentiate single molecules. We will help transform point-of-care testing and third generation sequencing.

Kiddom builds technology enabling teachers and learners to unlock their full potential. Teachers are often constrained by limited access to quality tools or mandated use of ineffective tools that do not meet their students’ needs. We believe technology should be utilized to close the achievement gap and level the playing field for all students.

AREVO, based in Silicon Valley, California, develops technology to enable direct digital additive manufacturing of ultra-strong, lightweight composite parts for end use applications in high volume. With the company's unique combination of breakthrough materials, powerful design/build software, and free motion robotics for the first “true 3D” construction, AREVO is moving beyond prototypes by enabling the design and fabrication of large, mass-produced parts and structures, quickly leading 3D printing into mainstream manufacturing. AREVO provides designers and manufacturers with unprecedented freedom to unlock the unparalleled strength and weight of composite materials for a wide range of consumer and industrial products, and has seen early success manufacturing CFRTP composite parts for OEM customers. With an initial focus on Aerospace, Defense, Consumer Electronics, Transportation, and Consumer Goods, Arevo is poised to optimize additive manufacturing services to OEM’s worldwide.

Tempo designs and develops a home fitness platform with personal guidance to help users in their training sessions. It features live elite trainers who can help users when they make mistakes. It has built-in three-dimensional sensors that track form, counts reps, and recommend weights. It helps users to improve in real-time. Powered by 3D motion sensors and AI, it analyzes 25 of the body’s essential joints as users work out and gives understood form feedback. Moawia Eldeeb and Joshua Augustin founded it as Pivot in 2015, with its headquarters in San Francisco in California.

20n Labs, Inc. is a biotechnology company based in Berkeley, California, that specializes in the development of synthetic microbes through advanced algorithms. Founded in 2013, the company focuses on engineering microbes to produce valuable chemicals for health and industrial applications. Notably, 20n has developed a bacteria capable of producing paracetamol, demonstrating a unique method of generating this widely used analgesic that does not exist in nature. The company is also creating a data mining platform that aims to facilitate the bioproduction of a diverse range of molecules, allowing researchers to design custom fermentation organisms and predict DNA edits in synthetic biology. This innovative approach positions 20n as a leader in leveraging technology to advance biotechnological solutions.

Tula Technology, Inc. specializes in developing and marketing the Dynamic Skip Fire (DSF) cylinder deactivation system, a cutting-edge powertrain technology designed to enhance fuel efficiency in internal combustion engines. By integrating digital signal processing with advanced powertrain controls, Tula's system allows automotive manufacturers to optimize engine performance while meeting stringent fuel efficiency and CO2 emissions standards. The technology operates by enabling engines to run each cylinder at its most efficient point and activating only the necessary cylinders based on the driver's power and torque demands. Founded in 2008 and headquartered in San Jose, California, Tula Technology also has an engineering center in Plymouth, Michigan. The company primarily serves clients in the United States, Germany, Japan, China, and South Korea, and operates as a subsidiary of Delphi Technologies PLC.

Tule Technologies Inc., founded in 2014 and based in San Francisco, California, specializes in developing and installing sensors tailored for the agriculture sector. The company’s technology measures evapotranspiration, which is the amount of water that evaporates from the soil and plant surfaces, providing farmers with precise irrigation recommendations. The sensors can monitor water usage over an area of 1 to 10 acres and relay data to a centralized dashboard, allowing for real-time irrigation management. This comprehensive system enables farmers to track field-level water stress, assess the effectiveness of their irrigation practices, and forecast atmospheric demand, thereby enhancing their ability to meet production goals. By offering actionable insights and comparisons across different fields, Tule supports informed irrigation decisions that optimize water use and improve crop health.

Tula Technology, Inc. specializes in developing and marketing the Dynamic Skip Fire (DSF) cylinder deactivation system, a cutting-edge powertrain technology designed to enhance fuel efficiency in internal combustion engines. By integrating digital signal processing with advanced powertrain controls, Tula's system allows automotive manufacturers to optimize engine performance while meeting stringent fuel efficiency and CO2 emissions standards. The technology operates by enabling engines to run each cylinder at its most efficient point and activating only the necessary cylinders based on the driver's power and torque demands. Founded in 2008 and headquartered in San Jose, California, Tula Technology also has an engineering center in Plymouth, Michigan. The company primarily serves clients in the United States, Germany, Japan, China, and South Korea, and operates as a subsidiary of Delphi Technologies PLC.

Consumer Physics Inc., based in Tel Aviv, Israel, specializes in the development and distribution of molecular sensors under the SCiO brand. Since its incorporation in 2011, the company has focused on empowering consumers and businesses to analyze the composition of materials using its compact near-infrared spectrometer. The SCiO device connects to smartphone applications and a cloud-based database of material fingerprints, allowing users to access real-time material analysis. Additionally, Consumer Physics provides a platform for businesses and third-party developers to create customized molecular sensing models and mobile applications, facilitating data-driven decisions that can help reduce food waste and enhance operational efficiency in industries such as food and agriculture. The SCiO DevKit offers developers the necessary tools and support to innovate in this area.

Tula Technology, Inc. specializes in developing and marketing the Dynamic Skip Fire (DSF) cylinder deactivation system, a cutting-edge powertrain technology designed to enhance fuel efficiency in internal combustion engines. By integrating digital signal processing with advanced powertrain controls, Tula's system allows automotive manufacturers to optimize engine performance while meeting stringent fuel efficiency and CO2 emissions standards. The technology operates by enabling engines to run each cylinder at its most efficient point and activating only the necessary cylinders based on the driver's power and torque demands. Founded in 2008 and headquartered in San Jose, California, Tula Technology also has an engineering center in Plymouth, Michigan. The company primarily serves clients in the United States, Germany, Japan, China, and South Korea, and operates as a subsidiary of Delphi Technologies PLC.

Consumer Physics Inc., based in Tel Aviv, Israel, specializes in the development and distribution of molecular sensors under the SCiO brand. Since its incorporation in 2011, the company has focused on empowering consumers and businesses to analyze the composition of materials using its compact near-infrared spectrometer. The SCiO device connects to smartphone applications and a cloud-based database of material fingerprints, allowing users to access real-time material analysis. Additionally, Consumer Physics provides a platform for businesses and third-party developers to create customized molecular sensing models and mobile applications, facilitating data-driven decisions that can help reduce food waste and enhance operational efficiency in industries such as food and agriculture. The SCiO DevKit offers developers the necessary tools and support to innovate in this area.

Tula Technology, Inc. specializes in developing and marketing the Dynamic Skip Fire (DSF) cylinder deactivation system, a cutting-edge powertrain technology designed to enhance fuel efficiency in internal combustion engines. By integrating digital signal processing with advanced powertrain controls, Tula's system allows automotive manufacturers to optimize engine performance while meeting stringent fuel efficiency and CO2 emissions standards. The technology operates by enabling engines to run each cylinder at its most efficient point and activating only the necessary cylinders based on the driver's power and torque demands. Founded in 2008 and headquartered in San Jose, California, Tula Technology also has an engineering center in Plymouth, Michigan. The company primarily serves clients in the United States, Germany, Japan, China, and South Korea, and operates as a subsidiary of Delphi Technologies PLC.

SJS Control Technologies Inc. is a low cost provider of construction, maintenance and turn key electrical and process automation services. They are also the distributor of RFID Inc. for Canada and Mexico, supplying automatic identification equipment for a variety of purposes.

Codon Devices is a biotechnology company, engages in developing, constructing, and delivering synthetic biology products for research. The company focuses on discovering and manufacturing synthetic biological parts. Its BioLOGIC Engineering Platform combines sophisticated design algorithms with assay and protein engineering capabilities to result in a system for the design, discovery, and optimization of proteins for specific applications; and BioFAB Production Platform, which produces synthetic genes.