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---
title: DLT2024
description: Uncompromising Web3 Communication at Scale
hide_table_of_contents: true
hide_title: true
og:image_subtitle: Events
---
import {
Box,
EventBanner,
EventInfo,
EventAbout,
EventProfileList,
EventCTA,
InputCTASection,
EventHeader,
Grid,
} from '@site/src/components/mdx'
<head>
<body className="events full-width event-details" />
</head>
<Box top={{ xs: 8 }}>
<EventBanner src="/events/dlt2024.jpeg" />
<EventHeader
title="Waku at ETHLATAM"
description="We are a family of robust, censorship-resistant communication protocols designed to enable privacy-focused messaging for web3 apps."
/>
<Box top={{ xs: 32 }}>
<Grid xs={{ cols: 2, gap: '1rem' }} md={{ cols: 2 }}>
<Grid.Item xs={1}>
<EventInfo
label="Date"
content={"May 14 May 15\n2024"}
/>
</Grid.Item>
<Grid.Item xs={1}>
<EventInfo
label="Location"
content={"Turin,\nItaly"}
/>
</Grid.Item>
</Grid>
</Box>
</Box>
<Box top={{ xs: 120 }}>
<EventAbout>
Waku is a suite of generalised messaging protocols aiming to be the communication standard for the decentralised web. It enables private and secure human-to-human, machine-to-machine, and human-to-machine communication without reliance on centralised intermediaries. Messaging through Waku is possible from one-to-one to many-to-many.
<br />
Waku serves as the communications layer of the Logos tech stack. Alongside the trustless agreement layer, Nomos, and the storage layer, Codex, it is one of the Logos Collective's foundational projects.
<br />
Motive:
Today's internet is increasingly controlled by a small number of tech giants. Google, Amazon, Meta, and a few others dictate what we see and with whom we can communicate. Their influence is almost limitless, and their actions shape global public opinion and even geopolitics.
<br />
To anyone that understands the internet's present architecture, this outcome should be expected. The centralised entities through which we communicate have privileged access to reams of data that we, as internet users, produce daily, presenting an opportunity for the kind of surveillance that was once confined to the pages of science-fiction literature. Thinking that the most powerful commercial and political institutions would not leverage this would be naive.
<br />
Yet, it doesn't have to be this way. Advances in cryptography, peer-to-peer networking, and decentralised technologies provide an alternate path forward.
</EventAbout>
</Box>
<Box top={{ xs: 120 }}>
<EventProfileList
title="Our Delegation"
description="Reach out for an appointment."
data={[
{
image: '/events/alvaro.png',
name: 'Alvaro Revuelta',
role: 'Waku Research Engineer',
email: 'alrevuelta@status.im',
linkedin: 'https://www.linkedin.com/in/alvarolopezrevuelta/',
},
]}
/>
</Box>
<Box top={{ xs: 32 }}>
<h3>Presentation</h3>
<Box top={{ xs: 16 }}>
<Grid xs={{ cols: 2, gap: '1rem' }} md={{ cols: 2 }}>
<Grid.Item xs={1}>
<EventInfo
label="Research Paper Presentation"
content={
<>
Waku paper will be presented by Alvaro Revuelta ( Waku Rearch Engineer) at the 6th Distributed Ledger Technologies Workshop (DLT2024) in Italy!
<br/><br/>
Date: 15th of May
<br/>
Time: 13:57
<br/><br/>
The paper title is: “Message Latency in Waku Relay with Rate Limiting Nullifiers”
<br/><br/>
Authors - Waku R & D Team - Alvaro Revuelta, Sergei Tikhomirov, Aaryamann Challani, Hanno Cornelius and Simon Pierre Vivier.
<br/><br/>
Abstract: Waku is a privacy-preserving, generalized, and decentralized messaging protocol suite. Waku uses GossipSub for message routing and Rate Limiting Nullifiers (RLN) for spam protection. GossipSub ensures fast and reliable peer-to-peer message delivery in a permissionless environment, while RLN enforces a common publishing rate limit using zero-knowledge proofs. This paper presents a practical evaluation of message propagation latency in Waku. First, we estimate latencies analytically, building a simple mathematical model for latency under varying conditions. Second, we run a large-scale single-host simulation with 1000 nodes. Third, we set up a multi-host Waku deployment using five nodes in different locations across the world. Finally, we compare our analytical estimations to the results of the simulation and the real-world measurement. The experimental results are in line with our theoretical model. Under realistic assumptions, medium sized messages (25 KB) are delivered within 1 second. We conclude that Waku can achieve satisfactory latency for typical use cases, such as decentralized messengers, while providing scalability and anonymity.
<br/><br/>
Find the full program for conference here: https://dlt2024.di.unito.it/program/
<br/><br/>
Have any questions about the event our tech? Reach out to us on Discord - https://discord.com/invite/gMPAzmcDER or Telegram - https://t.me/waku_org - we are always happy to help!
</>
}
/>
</Grid.Item>
</Grid>
</Box>
</Box>
<Box top={{ xs: 120 }}>
<Grid
xs={{ cols: 1, gap: '1rem' }}
md={{ cols: 2 }}
className="bottom-cta-sections"
>
<Grid.Item xs={1}>
<InputCTASection
title="Logos Network State"
description={
'Want to get involved with Waku?\nJoin the Discord community.'
}
link="https://discord.waku.org/"
label="Get Involved"
/>
</Grid.Item>
<Grid.Item xs={1}>
<InputCTASection
title="Newsletter"
description={'Subscribe\nto our newsletter'}
label="Subscribe"
formInput={[
{
label: 'Name',
placeholder: 'Name',
type: 'text',
name: 'name',
required: true,
},
{
label: 'Email',
placeholder: 'Enter your email',
type: 'email',
name: 'email',
required: true,
},
]}
/>
</Grid.Item>
</Grid>
</Box>
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