IonQ Inc (IONQ) Share Price

It didnt strike you as odd that Powell lowered interest rates right before the election? He did that to juice the economy to help the administration at that time. I predicted that would happen over a year in advance.

He also kept rates too low, for too long. That type of reckless activity is what caused the inflation to begin with.

Perhaps it is the resistance (Powell and others) who will trigger a recession.

You ask how many bankruptcies has Trump had? The answer is none. He has never filed for personal bankruptcy. He has been involved in many business ventures, in a very successful 60 year career. During that time frame, six companies that he owned or had an interest in filed for bankruptcy protection, under the law. It's a legal business decision.

Europe won't deal with China, as China is already eating their lunch. The EU is afraid of China and Russia, and needs US protection. Absent US protection, Russia would already have rolled through most of Europe.

No doubt there are risks associated with the tariff negotiations. But do you believe its fair that foreign countries can sell their goods in an open US market, and we cant sell our goods in those countries, because they have tariffs (taxes) on our merchandise, making it too expensive.

Have you ever traveled internationally? Go to Germany and you will see Mercedes everywhere, like they are Fords or Chevrolets, in the US. Mercedes is even used as taxis, in Germany. And its the same deal in other countries as well. You dont see American cars in Europe, Japan or Latin America.

The tariffs are being used as a negotiating tool. In a short time, these other countries will come to the table and cut deals, lowering or removing their tariffs on American goods. That will enrich our country through free and FAIR TRADE.

So if these tariff deals work out and the economy starts booming will you admit you were wrong?

We don't have to agree on everything or anything, as we are entitled to our opinions.

But I am glad to see that you were successful in selling IONQ high and buying back in low, and thereby tripling your share count. That is the smart play here, with all of the volatility.

The tariffs and uncertainty have certainly taken their toll on IONQ, and the markets in general.

Good luck!

Powell opened his mouth again ?!  He's 20 times smarter than the orange 🍊 man.   The sad thing is, if wigman can get rid of him he'll hire someone that will lower interest rates just because he wants it.   How many bankruptcies has trump had.  He'll throw us into a recession that will take a generation, yes.  20 years to recover from.  He's already isolated us from the world.  What did he say? 150 something countries are begging him to reconsider but refuses to name them.   🙄.  If Europe decides to deal with china, we are screwed.  The idiot has burned all bridges.   By the way, I've tripled my shares from selling high and buying low.   I think Kona was cussing me for doing it.  I've got the middle finger up for you brother.  👍

ionq software defined quantum computer for intellian and starlink terminals? something you need for remote ai/intelligence work. and soko has been using ai /quantum networks. gemini ai says,

"South Korea is actively pursuing advancements in quantum science and technology, with significant efforts focused on quantum communication networks and integrating quantum security into existing mobile infrastructure, rather than creating "mobile quantum computing networks" in the literal sense. Here's a breakdown of their activities:  

1. National Quantum Strategy & Investment:

South Korea has established a comprehensive national strategy aiming to become a global leader in the quantum economy by 2035.  
This includes substantial government and private sector investment (targeting over ?3 trillion by 2035, with ?198 billion (~$136 million USD) allocated for 2025).  
Key goals include developing indigenous 1,000-qubit quantum computers, establishing intercity quantum networks, creating advanced quantum sensors, and training a large quantum workforce (2,500 core professionals).
A high-level "Quantum Strategy Committee" has been formed (early 2025) to oversee these efforts.  
2. Quantum Communication Network Development:

Quantum Internet Ambition: South Korea aims to transition from an "internet powerhouse to a quantum internet powerhouse."  
Quantum Key Distribution (QKD): They are a leader in deploying QKD networks for secure communication.
SK Telecom and ID Quantique deployed the world's first country-wide QKD network infrastructure (operational mid-2022), connecting 48 government organizations across 800 km.  
Pilot QKD networks have been funded for various public institutions.  
Entangled Photon Networks: Research institutions like ETRI are developing technology for quantum communication using entangled photons, demonstrating 100km transmission capabilities with plans for further development towards long-distance quantum internet using quantum repeaters.
3. Integration with Mobile Technologies (Led by Telecoms):

SK Telecom (SKT): As South Korea's largest mobile carrier, SKT is deeply involved in quantum technology:
5G Quantum Security: SKT deployed QKD technology on its commercial 5G network as early as 2019. They also collaborated with Thales on testing Post-Quantum Cryptography (PQC) for 5G security.  
Quantum-Enhanced Mobile Devices: In 2020, SKT launched the "Galaxy A Quantum," the world's first 5G smartphone equipped with a Quantum Random Number Generator (QRNG) chip (developed with ID Quantique) for enhanced security in mobile banking apps and other services.  
Quantum Alliance ("X Quantum"): SKT leads this alliance (formed 2024) with partners like Nokia and KCS to develop quantum ecosystem products, including next-generation quantum cryptography chips (Q-HSM) designed for integration into devices like drones and security cameras, potentially extending to mobile devices in the future.  
AI & Quantum: SKT has partnered with quantum computing company IonQ (early 2025) to integrate quantum computing capabilities with its AI services and infrastructure, which could impact future AI-driven mobile applications.  
 
Quantum Networking for Satellites: Recent partnerships (like IonQ and South Korean company Intellian Technologies) aim to explore secure quantum networking for satellite communications, which are vital for global mobile connectivity, though this focuses on securing the backbone network rather than mobile end-devices directly.  
4. Quantum Computing Access:

While quantum computers are not mobile themselves, South Korea is developing its own (targeting 1,000 qubits) and providing cloud access to existing quantum computers (both domestic and international, like IBM's). This allows quantum resources to be accessed remotely, potentially via mobile interfaces in the future.  
In summary, South Korea is building advanced quantum communication networks and is at the forefront of integrating quantum security technologies (like QKD and QRNG) into its existing mobile infrastructure and devices. While not developing "mobile quantum computing networks" directly, their efforts are laying the groundwork for a future where mobile communications are secured by quantum principles and quantum computing resources can be accessed remotely."

Well it was kinda tongue and cheek. This will all work it self out. Buying opportunity

Intellian and Spacex. Plus IonQ. Now there’s a match made in heaven Doc . Good find!

Yep. And we’re moving up even more after hours. The word is getting out about IonQ not only into hardware , software and data centers but quantum networking too! I think with the large telecoms like in SK lining up deals for networks , it’s going to bring in more revenue than the machines themselves. Exciting days ahead.

Definitely agree. The kverall market is a drag on IONQ. The MOU are great and lay the foundation for future deals. But until those deals materialize, with financials, the share price stalls.

This stock will move up.

ripple and potential starlink/spacex connection? gemini ai says,

"?Ripple Labs Inc. has developed a substantial portfolio of patents in the blockchain and digital payments space. As of 2024, the company holds 35 patents globally, with 15 granted and over 63% remaining active .?
Insights;Gate

Notable Patents
Oracle-Based Smart Contracts
In 2020, Ripple was granted U.S. Patent No. 10,789,068, which covers a smart contract system that utilizes oracles to integrate real-world data into blockchain transactions. This innovation enables automated settlement of contracts based on external conditions, such as financial metrics or commodity specifications .

Temporary Consensus Subnetwork
Patent EP3054405A1 describes a method for establishing a temporary consensus subnetwork within a distributed payment system. This approach allows for efficient transaction processing by forming a subset of validation nodes acceptable to both the payer and payee .

Obscured Routing in Networks
This patent outlines systems and techniques for obscured routing, where computing devices send stacks of identifiers to neighboring devices in a network. Each stack includes unique identifiers, enhancing privacy and security by making the route to the destination device less discernible .

Patent Categories
Ripple's patents span several key areas:

Smart Contracts: Innovations in integrating external data sources into blockchain-based contracts.?

Consensus Mechanisms: Methods for achieving agreement among distributed network nodes, including temporary subnetworks.?
Google Patents

Network Security: Techniques for obscuring routing information to enhance privacy.?
Amazon"

spacex bids on satellite defense network... and then,
Intellian Technologies and Starlink (operated by SpaceX) are key players in the satellite communications market, particularly with the rise of Low Earth Orbit (LEO) constellations. Here's how they relate:  

Intellian as a Terminal Manufacturer: Intellian Technologies is a major designer and manufacturer of satellite communication user terminals (antennas) for various satellite networks (GEO, MEO, and LEO) across maritime, enterprise, land mobile, and government sectors. They produce a wide range of antennas, including advanced flat-panel and parabolic antennas suitable for LEO constellations.  
Starlink as a Network Provider: Starlink operates the world's largest LEO satellite constellation, providing high-speed, low-latency broadband internet service globally. Starlink also designs and manufactures its own user terminals (like the standard actuated dish and the Flat High Performance terminals for business and maritime).  
Ecosystem Relationship: While Starlink produces its own hardware, there's an ecosystem where specialized terminal manufacturers like Intellian play a role, especially in enterprise markets:
Enterprise & Maritime Focus: Intellian develops high-performance, enterprise-grade terminals (including flat panels) designed for the demanding requirements of maritime, energy, and government users. These often offer features or form factors suited to specific professional installations.  
Integration by Service Providers: Companies like Speedcast, Marlink, and Network Innovations act as value-added resellers or integrators. They often combine Starlink's network service with hardware options from manufacturers like Intellian to create tailored, robust connectivity solutions for their enterprise and maritime customers. These integrators bundle hardware, network service, installation, and support.  
Technology Compatibility: Intellian develops terminals specifically designed to work with LEO networks, making their hardware compatible with services like Starlink, although they also have formal partnerships to supply terminals for competing LEO networks like Eutelsat OneWeb and Telesat Lightspeed.  
In essence, while Starlink produces its own user terminals, Intellian Technologies designs and manufactures advanced terminals, particularly for enterprise and maritime markets, that can be used on the Starlink network, often integrated and sold by third-party service providers.

IONQ stock price cannot have any sustained rally as long as the overall market is in the dumps. The market will have a hard time recovering in times of uncertainty. The present administration has created this uncertainty and so far it looks like a disaster. Eventually this will pass but it may take a long time. For now, enjoy the "golden age of investing in America".

6G is coming. Get in.
Life in the fast lane.
Everything. All the time.
Ah haaaa !
Keep your 👁️ on IonQ 🏄🏻‍♀️🌈😎🤙

That’s it. Without contract news with $$$$ in them we drift down with the mkt.. MoU’s are great! But we need solid military or other huge corporations contract news stating how much they are worth. They’re coming. Hang in there and, keep your 👁️ on IonQ.

Powell opened his mouth and sent the markets down...again.

That's because I threw more money at it today. So of course it would drop.

News and PRs, all of which is good...and the price continues to decline. Not good at all.

Doc. T’s mention of 6 G ? Remember? We’re hereeeeeeee.

Lot’s of MoU’s being signed with very large corporations and Research Centers. Once they’re done kicking the tires and the test drive is over, the contracts will be signed. I think we’ll need a bigger factory. Keep your 👁️ on IonQ.

And we now own the controlling interest in I D Quantique

2. Full-stack QKD + Ploinks Architecture Diagram, and
3. Real-world QKD vendor integration

Let’s start with 2 (the architecture diagram).

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2. QKD + Ploinks Node: Full-Stack Architecture

Architecture Layers Overview
+--------------------------------------------+
¦ Quantum Photonic Layer ¦
¦ ------------------------------------------ ¦
¦ • Entangled Photon Receiver / QKD Device ¦
¦ • Free-Space Optical or Fiber Interface ¦
+--------------------------------------------+
¦
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+--------------------------------------------+
¦ QKD Key Management Layer ¦
¦ ------------------------------------------ ¦
¦ • BB84/E91 Protocol Handler ¦
¦ • Quantum Key Store (Secure RAM) ¦
¦ • Quantum Session Key Rotation Daemon ¦
+--------------------------------------------+
¦
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+--------------------------------------------+
¦ Ploinks Security Layer ¦
¦ ------------------------------------------ ¦
¦ • QKD Key Injection into Libp2p ¦
¦ • Authenticated Identity Layer (P2P IDs) ¦
¦ • Encrypted Tangle/Message Routing ¦
+--------------------------------------------+
¦
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+--------------------------------------------+
¦ P2P Application Layer (Biofoundry) ¦
¦ ------------------------------------------ ¦
¦ • DNA Job Dispatch / Results Exchange ¦
¦ • Quantum-Timestamped Logs & Metadata ¦
¦ • AI Models / Compute Offload Tasks ¦
+--------------------------------------------+

Next, let’s go to 3 (Real QKD Vendors + Integration).

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3. Real-World QKD Integration with Ploinks

A. Vendors to Consider

Vendor
Product
Integration Highlights
ID Quantique
Clavis³ QKD platform
Open APIs, fiber-based, secure key injection
Toshiba
QKD System (Multiplexed)
Wavelength multiplexing with classical data
QNu Labs
QKD Box (Tropos)
Compact for edge nodes, India-based vendor
Micius Satellite (China)
Space-ground QKD experiments
Not commercial yet, but future global mesh


B. How to Integrate with Ploinks Mini-Servers

Hardware Requirements:
• Ploinks node (e.g., Raspberry Pi 5, or an ARM-based secure enclave mini-server)
• QKD device with:
• USB/Serial interface for key injection
• Fiber optic or FSO connection for photon transmission
• Optional: FPGA/Photonics interface shield (or future SoC integration)

Integration Steps:
1. QKD Device Setup
• Connect to another QKD endpoint (node-to-node or via relay).
• Run key exchange protocol (e.g., BB84 or E91).
• Periodically rotate session keys.
2. Secure Key Injection into Ploinks

from ploinx.crypto import inject_qkd_key

qkd_key = get_qkd_key_from_device() # Read from USB or API
inject_qkd_key(peer_id="peerXYZ", key=qkd_key)

3. Enable Hybrid Comm Layer
• If needed, use QKD key for AES-256 GCM channel.
• Combine with TLS for metadata encryption.
4. Validate and Authenticate
• Use QKD-based MAC or quantum HMAC for message integrity.
• Optionally pair with quantum timestamp signatures.

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C. Considerations for Scaling
• Mesh Support: Some vendors support point-to-point only; use software to emulate group key exchange.
• APIs: Look for SDKs or driver-level hooks. ID Quantique provides Linux-based QKD APIs.
• Latency: Photon transmission is near-instant but post-processing (key reconciliation) adds overhead.

Key words in PR u don’t want to miss.. SK is on deck imo
“IonQ also plans to enter into a strategic partnership focused on quantum with SK Telecom, South Korea’s largest wireless telecommunications operator.”

Perfect — let’s dive deep into Quantum Key Distribution (QKD) + P2P integration using Ploinks. This combo enables secure, time-synced, and authenticated peer communications, which is foundational for your decentralized biofoundry or any mission-critical P2P network.

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QKD + P2P with Ploinks: Deep Dive

1. Core Concepts Recap
   •   QKD: Uses quantum properties (typically single photons or entangled photon pairs) to distribute encryption keys that are provably secure — any eavesdropping attempt is detectable.
   •   Ploinks: Lightweight, peer-to-peer mini-server architecture using permissioned, encrypted, and portable networking with user-centric identity and data management.

Goal: Use QKD to bootstrap ephemeral session keys between Ploinks nodes in a decentralized network — enabling ultra-secure, quantum-resilient P2P communication.

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2. Architecture Overview

P2P Node Design (Simplified)
+---------------------------------------------------+
| Ploinks Mini-Server Node |
|---------------------------------------------------|
| Identity & Permission Layer | Libp2p Stack |
|---------------------------------------------------|
| QKD Interface Module | TimeSync Service |
|---------------------------------------------------|
| Secure Comm Layer (TLS/QKD Hybrid) |
+---------------------------------------------------+


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3. QKD + Ploinks Integration Path

Step 1: QKD Setup Between Two Nodes

Hardware Option A: Commercial QKD devices (e.g., ID Quantique, Toshiba, or QNu Labs)
Hardware Option B: Simulated QKD for testing (post-quantum crypto + quantum emulation)
Link Medium: Fiber optic or free-space optical (FSO)

Protocol: BB84 or E91
Outcome: Shared symmetric session key K_AB between Node A and B

Step 2: Key Injection into Ploinks Stack

   •   This replaces or augments standard TLS or Libp2p encryption with a QKD-based symmetric key.
   •   You can rotate keys per session, per payload, or at any defined quantum event.

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Step 3: P2P Communication Over QKD-Tunneled Channel

Once QKD keys are established and authenticated:
   •   All Ploinks routing, identity exchange, permission negotiation, and biofoundry job sharing are encrypted using QKD-derived keys.
   •   For group communication, implement multi-party QKD or a QKD-backed key exchange protocol using logical ring-based group key management.

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Step 4: Quantum-Timestamping + Message Authentication

Quantum key-based hashes (or quantum-derived time signatures) are embedded in messages:

{
"from": "Node_A",
"to": "Node_B",
"timestamp_q": "2025-04-16T18:00:00Z_qkd",
"data": "",
"auth": ""
}

•   This provides message integrity, temporal ordering, and tamper-evident transport — perfect for traceable DNA synthesis events or distributed experiment logging.

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Step 5: Fault Tolerance and Sync Recovery
   •   If QKD session fails or drops, fall back to post-quantum cryptographic handshake (e.g., CRYSTALS-Kyber) until quantum channel is restored.
   •   Timestamp discrepancies can be resolved using QKD-assisted round-trip ping protocols.

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4. Scaling This Up
   •   Use quantum relay nodes or satellite QKD links (e.g., from Micius satellite) to bootstrap global Ploinks networks.
   •   For mesh-style quantum routing, research into quantum repeaters and multi-path QKD is key.

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5. Integration Summary Table

Component
Tech/Protocol
Role
QKD Device
BB84 / E91 / CV-QKD
Secure session key
Ploinks Node
Custom libp2p + QKD session handler
Peer networking
Time Sync
Entangled photon time transfer
Secure ordering
Comm Layer
QKD key + TLS hybrid
Quantum-resilient encryption
Auth Layer
QKD-derived HMAC / MAC
Tamper-proof messages


Would you like:
   •   A sample QKD handshake in Python using a simulated environment?
   •   A diagram showing how QKD + P2P traffic flows in your biofoundry mesh?
   •   Details on integrating with specific QKD vendors or modules?

Let’s build your stack from idea to working prototype.

Doc. I rest my case. Now where’s our money?

Great — integrating quantum time synchronization (QTS) into a P2P network with Ploinks opens up a powerful use case for secure, precise, and decentralized coordination, especially in mission-critical or research-intensive environments like your Ploinks-powered biofoundry nodes.

Let’s break it down and then outline a technical roadmap:

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Why QTS in a P2P Ploinks Network?

Ploinks’ mini-server nodes form a decentralized and permissioned P2P network. For tasks like:
   •   Distributed DNA synthesis
   •   Quantum-assisted bioinformatics
   •   Secure scientific collaboration
   •   Federated ML with timestamping

…high-precision time coordination is essential. Traditional NTP or GPS may not be sufficient due to latency, spoofing risk, or lack of tamper detection. Quantum synchronization adds a secure, tamper-evident time layer.

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Architecture Concept

1. Node Infrastructure:
   •   Each Ploinks node runs a lightweight OS with secure enclave support (e.g. ARM TrustZone, or RISC-V secure mode).
   •   Nodes equipped with mini-optical modules (or future quantum photonic chips) for quantum communication.

2. Time Synchronization Layer (QTS):
   •   A dedicated protocol overlays the P2P stack.
   •   Nodes exchange entangled photons or single-photon time-stamps using QKD channels.
   •   Timestamps are authenticated and embedded in ledger entries or metadata.

3. Consensus Coordination:
   •   Use quantum-synchronized timestamps in your P2P consensus mechanism (e.g., for version control of bio-recipes, or coordination of multi-node DNA builds).
   •   Optional: integrate into CRDTs (conflict-free replicated data types) to maintain order without traditional clocks.

4. Security & Integrity:
   •   Tampering with time data is detectable via quantum state disturbance.
   •   Quantum-generated timestamps could act as a quantum notarization layer for regulatory or IP protection.

?

Tech Stack Suggestions
Layer
Tools/Tech
Quantum Sync
Entangled photon sources (e.g. from ID Quantique, QNu Labs) or quantum repeaters (if long-range)
P2P Overlay
Ploinks protocol + Libp2p + custom timestamp module
Secure Transport
QKD channel + Ploinks encrypted routing
Hardware
Mobile SoCs with integrated photonic or optical interface (or start with simulation/emulation layer)
Ledger/Logs
Tangle-style DAG ledger with quantum-stamped events


?

Prototype Roadmap: P2P Biofoundry + QTS
1. Phase 1: Emulation Layer
      •   Simulate quantum time sync between nodes (mock photon arrival timestamps).
      •   Implement P2P clock consensus based on quantum emulated data.
2. Phase 2: Physical Layer Integration
      •   Use off-the-shelf QKD modules to transfer timestamp data.
      •   Interface these with secure Ploinks mini-servers (e.g. Raspberry Pi with custom shield).
3. Phase 3: Consensus & Coordination
      •   Run real DNA synthesis tasks or bioinformatics jobs.
      •   Verify reproducibility and traceability based on quantum timestamps.
4. Phase 4: Distributed Deployment
      •   Deploy across multiple cities/labs.
      •   Explore integration with future quantum internet nodes.

HOMEWORK: Quantum time synchronization is an emerging field that uses principles of quantum mechanics to synchronize clocks over long distances with extremely high precision and security. Here’s a breakdown of the key ideas, technologies, and use cases:

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What Is Quantum Time Synchronization?

Quantum time synchronization (QTS) involves distributing accurate timing signals using quantum entanglement, single-photon transmission, or quantum key distribution (QKD) to synchronize clocks between remote systems.

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Key Methods
1. Entangled Photon Synchronization:
      •   Pairs of entangled photons are generated and sent to two distant locations.
      •   Measurement of arrival times can be correlated to achieve sub-picosecond synchronization.
      •   Immune to classical timing attacks (e.g., delay injection).
2. Quantum Two-Way Time Transfer:
      •   Involves sending quantum signals back and forth between two nodes (often via optical fiber or satellite).
      •   Round-trip times are used to correct for asymmetries in signal travel time.
3. Quantum Clock Networks:
      •   Connect atomic clocks via quantum links to maintain a global time reference.
      •   Helps in building a quantum-secure global positioning system (GPS) alternative.

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Advantages Over Classical Systems
   •   Higher precision: Potentially femtosecond (10^-15s) accuracy.
   •   Tamper resistance: Any eavesdropping or interference alters quantum states and can be detected.
   •   Scalability: Especially over free-space optics and quantum satellite links.

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Applications
   •   Quantum communication networks: Time-synchronized quantum nodes are essential for distributed entanglement and quantum teleportation.
   •   GPS replacement: More secure and resilient to spoofing or jamming.
   •   Scientific experiments: Such as very long baseline interferometry (VLBI) in astronomy.
   •   Military & aerospace: Where secure and accurate time is mission-critical.

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Research & Development Examples
   •   NIST and PTB (Germany) have demonstrated entanglement-based time transfer.
   •   China’s Micius satellite has conducted space-to-ground quantum time synchronization.
   •   DARPA’s PNT (Positioning, Navigation, Timing) programs include quantum timing projects.

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Would you like to dive deeper into a specific protocol, real-world implementation, or how this could tie into your biofoundry or P2P network work?

HELL YALE!! IonQ and Intellian Technologies, Inc. partner to transform satellite communications with quantum computing

COLLEGE PARK, Md.--(BUSINESS WIRE)--Apr. 16, 2025--IonQ (NYSE: IONQ), a leader in the quantum computing and networking industries, announced that it has signed a memorandum of understanding (MoU) with Intellian Technologies, Inc., a leading global provider of satellite communication antennas and ground gateway solutions, to explore how secure quantum networking can transform satellite communications. This memorandum furthers IonQ’s work in strategically partnering across South Korea’s enterprise, government, and academic sectors and launching initiatives seeking to advance their quantum economy.

Intellian is a leading satellite and marine radio, terminal and antenna company headquartered in Pyeongtaek, South Korea. As a global partner to more network operators than any other manufacturer, Intellian’s hardware is critical for enabling satellite network connectivity around the world. Today’s announcement underscores Intellian’s ongoing commitment to advancing satellite communication technologies.

“IonQ has grown and prospered due to its commitment to global partnerships. We look forward to working together with Intellian to innovate and discover how quantum networking technologies can secure free communications,” said Niccolo de Masi, President & CEO of IonQ. “South Korea has been a vital partner in the advancement of quantum computing and our longstanding engagement with partners in the region reflects our shared commitment to innovation.”

de Masi continued, “IonQ’s long-term vision includes being a leader in the quantum-enabled communications industry, leveraging our expertise in quantum networking to support secure satellite to satellite and ground to satellite communications. We also ultimately envisage quantum time synchronization as a GPS alternative.”

“We’re excited to partner with IonQ to reimagine the future of satellite technologies,” said Eric Sung, CEO of Intellian. “Our technology connects customers to the satellites’ networks in space and together, we have the opportunity to explore a new technological paradigm to fundamentally transform current satellite communications and enhance services for the millions of customers who depend on them every day.”

This non-binding memorandum with Intellian advances IonQ’s vision and marks a key step toward the future of quantum-enabled satellite communications.

IonQ’s connection to South Korea is deeply rooted in the company’s history. Co-founder Dr. Jungsang Kim, who was born and raised in South Korea, has been a pioneering force in the quantum computing industry. He was named a Fellow of the National Academy of Inventors in 2023 for his achievements at IonQ and contributions to the quantum technology field. Over the past six years, IonQ has actively collaborated with South Korean government agencies, academic institutions, and enterprises to help advance the nation’s quantum strategy and accelerate research and commercialization efforts.

In 2023 and 2024, IonQ played an active role in key national quantum initiatives, including sponsoring the Quantum Korea conference, supporting multiple quantum hackathons, and contributing to Korea’s National Quantum Strategy.

Key milestones include investments from Korean global technology leaders Samsung Electronics and Hyundai Motor Company prior to IonQ’s 2021 IPO. IonQ has since collaborated with Hyundai on multiple quantum projects aimed at advancing next-generation batteries and autonomous vehicle technologies. Building on this momentum, IonQ signed agreements with Seoul National University and Sungkyunkwan University to support quantum research and workforce development. IonQ also plans to enter into a strategic partnership focused on quantum with SK Telecom, South Korea’s largest wireless telecommunications operator.

As IonQ expands its global quantum capabilities, South Korea continues to be a vital partner in advancing the company’s mission to accelerate quantum innovation. Through ongoing collaboration across government, industry and academia, IonQ remains focused on supporting quantum technology and workforce development in South Korea, seeking to drive impactful progress for the future.

For more information, please visit www.ionq.com and http://www.intelliantech.com

broadcom cybersecurity with ai with google cloud.sawblade ventures?

didnt get quite 30% but very close

IONQ had a Double Top Breakout on 11-Apr-2025. GLTA

quantum computing accessed via cloud, which for china provides a life line to quantum computing just in case?
what other pr's today for ionq which is ringing the closing bell at nyse?

Kona forecast it

https://ih.advfn.com/stock-market/NYSE/ionq-IONQ/stock-news/95836445/ionq-expands-quantum-collaboration-in-japan-signs

G-QuAT Memorandum of Understanding strengthens IonQ’s presence in the APAC region with the intent to support the advancement of quantum computing in Japan

IonQ (NYSE: IONQ), a leader in the quantum computing and networking industries, announced the signing of a Memorandum of Understanding (MOU) with the Global Research and Development Center for Business by Quantum-AI Technology (G-QuAT), a division of one of the largest public research organizations in Japan, the National Institute of Advanced Industrial Science and Technology’s (AIST). This memorandum facilitates cooperation between IonQ and G-QuAT intended to advance quantum computing technologies in Japan.

G-QuAT is AIST’s initiative focused on developing advanced hybrid-quantum computing technologies with artificial intelligence, and aims to advance quantum research and development, accelerate real-world use cases and build a global quantum business ecosystem.

The intent of this MOU is for G-QuAT and IonQ to work together to facilitate G-QuAT prospectively obtaining access to IonQ Forte-class quantum computers through the IonQ Cloud that supports collaborative research, development, and innovation. This MOU reflects both companies’ shared vision to accelerate the development and adoption of quantum technologies in Japan’s research and technology industries.

“Our expanded alliance with AIST marks an important step in IonQ’s global expansion and deepens our engagement with the Japanese quantum market,” said Niccolo de Masi, President and CEO of IonQ. “We look forward to our further collaboration with G-QuAT to explore new quantum computing applications that can deliver transformative outcomes across industries.”

Today’s announcement marks the latest milestone in IonQ’s alliance with AIST, which seeks to provide access to its Forte-class quantum computers to support the advancement of quantum technologies in Japan. According to McKinsey, Japan is making substantial progress toward its quantum computing goals with over $1.8 billion in public funding already announced and multiple government-sponsored research labs commissioned as of 2024.

“Our goal is to foster a robust, international quantum ecosystem and our collaboration with IonQ will bring us closer to achieving this,” said G-QuAT Deputy Director, Mashiro Horibe. “We’re excited to explore new R&D and application possibilities using IonQ’s Forte quantum computer, and to make quantum computing accessible to researchers, enterprises and institutions both in Japan and globally.”

Today’s announcement builds on IonQ’s global momentum, including the unveiling of its first quantum computer in Europe in partnership with QuantumBasel. IonQ aspires to contribute to the advancement of quantum technology and workforce development worldwide. This non-binding MOU shows IonQ’s ongoing focus on contributing to the growth of Japan’s quantum economy and in the APAC region.

Finish him….

????

dafca/darpa/vcsy /sawblade venture as i remember.
vcsylicensing of dafca for sawblade v.
asics/fpga/etc...soc.

Yes, IonQ utilizes Electronic Design Automation (EDA) tools, particularly through its partnership with Ansys, to design and optimize components for its next-generation quantum computers. This collaboration involves using Ansys’ multiphysics simulation software—including structural, optical, photonic, and electromagnetic tools—to enhance the scalability and performance of IonQ’s trapped-ion quantum systems ? ?.

Additionally, IonQ and Ansys have demonstrated the potential of quantum computing to outperform classical computing in certain engineering simulations. For instance, they achieved up to a 12% speed improvement in simulating blood pump dynamics using Ansys LS-DYNA on IonQ’s quantum hardware ?.

Homework: IonQ is also advancing hybrid quantum-classical workflows by integrating its quantum hardware with platforms like NVIDIA’s CUDA-Q. This integration enables efficient molecular modeling and other complex simulations, showcasing the synergy between quantum and classical computing resources . ?

In summary, IonQ actively employs EDA tools and collaborates with industry leaders to enhance the design and application of its quantum computing technologies.

Homework: EDA in quantum computing is an emerging but rapidly growing field, evolving to meet the unique demands of designing quantum processors (QPUs), control electronics, and hybrid classical-quantum systems. Here’s a breakdown of how EDA principles are being adapted and expanded for quantum computing:

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1. What Does EDA Mean for Quantum Computing?

In classical systems, EDA is about automating digital logic and layout. For quantum computing, EDA must support the design and integration of:
   •   Quantum Processing Units (QPUs): Based on superconducting qubits, trapped ions, photonics, silicon spin, etc.
   •   Cryogenic and Classical Control Electronics: For qubit control, readout, and error correction
   •   Quantum-Classical Interfaces: High-speed links between QPU and CPUs/GPUs for hybrid workloads
   •   Quantum Error Correction (QEC): Layout and optimization of logical qubit architectures using surface codes, LDPC codes, etc.

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2. Core EDA Tasks in Quantum Hardware Design

a. Device-Level Design (Quantum EDA or Q-EDA)
   •   Physical layout of qubits, control lines, resonators
   •   Electromagnetic simulation of qubit-coupler geometries
   •   Crosstalk and fidelity analysis under cryogenic conditions
   •   Example tools: Ansys HFSS, Keysight ADS, Qiskit Metal

b. Architecture-Level Design
   •   Logical qubit placement and connectivity mapping (e.g., nearest-neighbor constraints)
   •   Optimization of circuit depth and error rates
   •   Synthesis of quantum algorithms into gate-level operations under hardware constraints
   •   Example: IBM’s Qiskit, Google’s Cirq, and t|ket? by Quantinuum

c. Quantum Compiler and Scheduler
   •   Translate quantum circuits to physical gate operations
   •   Insert error correction cycles, and gate reordering for fidelity
   •   Optimize for coherence times, gate durations, and parallelization

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3. Quantum EDA Stack Example

Layer
Classical EDA Equivalent
Quantum Equivalent
Application
Software (C/C++)
Quantum SDK (Qiskit, Cirq, PennyLane)
Logic Design
RTL / Verilog
Quantum Circuit Design
Synthesis
Logic synthesis
Gate synthesis (Clifford+T, Toffoli decomposition)
Physical Design
Floorplanning, P&R
Qubit mapping, control line routing
Signoff
Timing, power, DRC
Decoherence, crosstalk, fidelity, control latency

4. Emerging Players in Quantum EDA
   •   IBM Qiskit Metal: Hardware-aware design and simulation framework
   •   Google Cirq + Sycamore tools: Qubit-level layout and scheduling
   •   Keysight Technologies: RF + cryogenic test + design automation
   •   Ansys Q3D + HFSS: Simulation of control wiring and electromagnetic interference
   •   Classiq, Quantum Motion, Riverlane: Pushing logic-level quantum EDA and optimization

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5. Key EDA Challenges Unique to Quantum
   •   Analog and Quantum Signal Design: Classical EDA is digital-focused, but qubits require precise analog signal synthesis
   •   Cryogenic Operation: Circuit components operate at millikelvin temperatures
   •   Error Correction Overhead: Physical-to-logical qubit mapping can be 1000:1 or higher
   •   Co-Design Complexity: Must design quantum hardware, classical control, firmware, and error correction together

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6. Future of Quantum EDA
   •   AI-driven Q-EDA for layout and error mitigation
   •   Open-source quantum compilers integrated with hardware-aware design tools
   •   Full-stack co-design of quantum systems (hardware + software + control + scheduling)

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Would you like a quantum EDA flowchart or example of a real-world QPU design pipeline (e.g. how IBM or IonQ fabricates and simulates their qubit architectures)? Or how to develop Q-EDA tooling for a quantum startup?

Homework: Electronic Design Automation (EDA) plays a crucial role in the development of AI supercomputers. Here’s a high-level overview of how EDA intersects with the design and manufacture of AI-centric supercomputers:

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1. Role of EDA in AI Supercomputers

EDA refers to the set of tools and methodologies used to design, simulate, verify, and manufacture complex electronic systems such as ASICs (Application-Specific Integrated Circuits), SoCs (Systems on Chips), and FPGAs—all of which are foundational components of AI supercomputers.

AI supercomputers rely on specialized hardware accelerators like GPUs, TPUs, or custom AI chips. Designing these at scale requires advanced EDA tools.

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2. Key EDA Stages in AI Supercomputer Design

a. System-Level Design
   •   Modeling architectures using high-level description languages (e.g., SystemC, Verilog, VHDL)
   •   Co-design of hardware and software (e.g., optimizing for TensorFlow, PyTorch, CUDA)

b. RTL Design and Verification
   •   Register Transfer Level (RTL) design of AI cores, memory controllers, and interconnects
   •   Simulation and formal verification to ensure logical correctness and timing closure

c. Logic Synthesis and Physical Design
   •   Logic synthesis transforms RTL into gate-level netlists
   •   Placement and routing (P&R) map the design onto silicon
   •   Power, performance, and area (PPA) optimization is crucial for dense AI chips

d. Sign-off and Tapeout
   •   Sign-off analysis includes signal integrity, thermal, and power integrity checks
   •   Once finalized, the chip is sent for fabrication (tapeout)

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3. AI-Driven EDA

EDA itself is becoming AI-driven to handle the increasing complexity of AI chip design:
   •   Machine Learning for EDA: Tools like Synopsys DSO.ai use AI to automate chip design and optimization
   •   Generative Design: AI can suggest novel microarchitectures optimized for AI workloads

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4. Specialized AI Hardware and EDA Co-evolution

NVIDIA, Google, Intel, AMD, Cerebras, and Tenstorrent are designing AI-optimized hardware:
   •   Massive parallelism (tens of thousands of cores)
   •   Advanced memory hierarchies
   •   Chiplet and 3D IC designs (requiring advanced EDA for packaging and thermal design)

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5. EDA Tools and Companies

Some key EDA tools and vendors used in AI supercomputer design:
   •   Synopsys (DSO.ai, Design Compiler, PrimeTime)
   •   Cadence (Genus, Innovus, Spectre)
   •   Mentor/Siemens EDA (Calibre, Tessent)
   •   Ansys (thermal/power analysis)
   •   Open-source: OpenROAD, Yosys, etc. are gaining traction in academia and startups

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Would you like a deep dive into a particular part of the EDA pipeline (e.g., AI chip RTL design, AI-powered P&R, 3D IC packaging, etc.) or how to apply this to a real-world AI supercomputer architecture?

eda electronic design automation of ai supercomputers, quantum computers would seem to be a new big deal.
how to make esoteric considerations and science of academics into everyday applications?
dafca design automation for flexible computer architecture..

IONQ, 10 day high

Can we cut out the testosterone challenges?

justia patents:
"Pulse generation
Patent number: 12271715
Abstract: Systems and techniques are provided for pulse generation. A classical computing device may receive a program source code including quantum operations. The program source code may be compiled into a compiled program including the one or more quantum operations. Pulse shapes that a pulse shape library indicates corresponds to each of the quantum operations may be determined. Pulse instructions based on the one or more pulse shapes that the pulse shape library indicates corresponds to each of the quantum operations may be generated. Binary format instructions may be generated based on the pulse instructions. The binary format instruction may encode the pulse instructions in binary packets using a binary code of a field programmable gate array (FPGA) of a quantum computing device.
Type: Grant
Filed: November 13, 2023
Date of Patent: April 8, 2025
Assignee: IonQ Inc.
Inventors: Vandiver Chaplin, Jason Amini"

kona, the ionq pulse generation patent and segue with vcsy cruz fo patent/ teleportation of data with uk showing 400km capabilities. i wonder if cruz is working with them?

I agree that size doesnt matter. Heart and skills do. And yes, with a wrestler, the fight goes to the ground quickly.

I was a magnet in bars do to my 5'9" stature and bald in bars.   I always waited until they went into the restroom alone to confront them without their 10 friends.   Took care of him there and then left the bar.  Always be careful of the wrestler, fights always ended up on the ground after 10 seconds.  Size truly doesn't matter in bars. Street fighting or defending yourself.  Experience and just not giving a shit does.  You mentioned your status, shit. I've called out guys bigger than you.  Not bragging.  But the guy knows if you're bluffing or not.  🤷‍♂️.    10 years younger I would of loved spar with you.  👍

I agree with your statements about Mugabi. He was an excellent fighter and a beast. Hagler was simply better and a more skilled boxer who kept Mugabi off balance.

Boasting about the outcome of meeting someone you dont even know is funny.

I am quite a capable individual at 6'2" 245 and bench press nearly 400lbs. I have medals in wrestling and have been boxing since I was 10 years old, as well as being an instructor and a bouncer/security for many years.

I would gladly take my chances.

Have a good weekend.

As an ex boxer, mugabi was sincerely a freaking Beast.  Sort of like Mike Tyson, Hagler was very careful in that fight and fought him perfectly.  The BeastMugabi was never the same after that fight.  Gained weight, he met his match.  Hagler was the superior boxer.   Let me just say one thing, you would never want to meet me on the mat brother.   🥊  🥊.  You would be in trouble.  👍 Have a nice weekend. 

Stocks and IONQ end the week higher. Looks like the policies are working.

Leadership, respect and winning!

JJ8 & Mugabi, the pipe fitter and the pipe = the brain trust.

Both want to attack and/or make rude comments about others, but when there is pushback then you cry.

Special treatment for thee but not for me. Got it

Doc. As of April 2025, there is no public record of former President Donald Trump explicitly prohibiting Chinese AI workloads from being processed in Japan. However, his administration has taken steps to tighten controls on China’s access to advanced AI technologies, including efforts to coordinate with allies like Japan to restrict China’s semiconductor capabilities. ?

In February 2025, Trump officials met with Japanese and Dutch counterparts to discuss limiting the maintenance of semiconductor equipment in China by companies such as Tokyo Electron and ASML. These discussions aim to align allied export controls with U.S. policies to curb China’s technological advancements . ?

Additionally, the administration is reviewing and potentially tightening the AI diffusion rule introduced during the Biden administration. This rule categorizes countries into tiers regarding access to U.S. AI technology, with China facing the strictest export bans. The Trump administration is considering further reducing the amount of AI computing power that can be exported without a license . ?

While these measures indicate a broader strategy to limit China’s access to AI technologies, there is no specific evidence of a directive targeting Chinese AI workloads in Japan.

Ponder. Yep. I’m hoping we get news about Japan on Monday then end of week S Korea news. Stands to reason. We’ve been in talks with Japan for months now and we purchased majority of I D Quantiques shares. Fingers crossed. 🤞1st qtr earnings May 7 less than a month away. I’d like to see news of another sale of Forte Enterprise and news on Tempo. Another military contract wouldn’t hurt either lol. Gotta be a ton of great news coming.

has trump said no to china ai workloads being moved to japan or other asian countries? he's letting them have h20 for inference?

are they visiting the same people as the usa trade negotiator? first japan? maybe monday for the supercomputer and quantum pr? wags. that would be nice.